JP2010275867A - Various energy conservation cycle combined engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the following problems that since by abnormal weather, abnormal dryness, a forest fire, drought and concentrated heavy rain are increased and fishes are dramatically reduced, it is necessary to reduce CO2 emissions from an electric power plant, an automobile, a ship or the like to zero, recover CO2 in the atmosphere and increase the fishes. <P>SOLUTION: By driving a plurality of liquid metal gravity solar turbines, liquid metal power having the same speed and the same volume as the atmospheric pressure is set to be 10,000 to 23,000 times the rotation output of the existing steam turbine by the plurality of turbines. Heat energy three to five times electric power used for producing heat to compress air heated by solar light is doubly produced by a plurality of heat pumps driven by the rotation output, divided into overheated steam and compressed air, and preserved. A water jet (79U) is driven by most of the overheated steam and compressed air. Overheated steam injection temperature is made to approach combustion gas injection temperature of 900 degrees or the like by a plurality of three-stage combustors, thereby increasing volume to three times, increasing injection speed to three times, sucking and injecting seawater, and decupling speed in comparison with the existing ship. Nutrient such as CO2 and nitrogen is supplied into the seawater substantially similarly to liquid metal solar power generation in an injection/propulsion process, and CO2 in the atmosphere remarkably increasing phytoplankton and fishes is recovered and used. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention dissolves atmospheric CO 2 in seawater to speed up the natural phenomenon of propagating phytoplankton to fish by breeding food chain, and sucks large amount of CO 2 at high speed together with the atmosphere to produce fuel injection combustion heat exchange superheated steam As suction and injection of combustion gas with superheated steam and suction and injection of water as water jet 79S 3 stage combustion, 79T 4 stage combustion or 79U 3 stage combustion, superheated steam injection temperature is brought close to combustion gas injection temperature 24 to 400MPa superheated steam Maximize the injection speed, maximize the water suction injection motive force that maximizes the combustion gas suction power, and set the medium- and large-sized ship speed to about 10 times that of the existing ship to make it the world's top operating profit. Since thermal energy of 3 to 5 times the power can be obtained, the air heated by sunlight is drawn and compressed with a heat pump 1G driven by a full blade liquid metal solar heat turbine, Converted heat recovery Superheated steam heats up to around 600 ° C in the process of producing solar heating separate air, compressed heat recovery compressed by heat pump and heat recovered as needed. The fuel injection combustion heat exchange superheated steam 50 is produced several times and divided and stored as compressed air 28a mass of oxidant to 49 mass of combustion gas + superheated steam 50 of the propellant, and each is supplied to water jet 79U and most efficient Air-fuel ratio combustion and injection propulsion output, CO2 with the atmosphere and a large amount of high-speed injection to float the hull as well as CO2 supply to the sea Phytoplankton is greatly proliferated, fish food is greatly increased production of fish paradise A technology to rapidly collect and use CO2 in the atmosphere by building large-scale fish breeding, making medium- and large-sized vessel propulsion speeds close to the speed of sound, and making water jets flourish that will make the world's top operating profit outstanding. About.

Water jet 79 U burner supplied with around 200 degrees 24-400MPa compressed air mass to heat around 400 degrees around the fuel injection combustion outer heat 24-400MPa superheated steam heat amount, two-stage combustion heats the superheated steam from multiple locations around the outer circumference The combustion gas is injected by the plurality of combustion gas injection nozzles 6Y, and the two-stage fuel injection is performed in the first stage combustion injection high temperature high speed combustion, and the three stage combustion is a plurality of combustion gas injections heating the superheated steam from a plurality of middle positions. The combustion gas is injected by the nozzle 6Y, the fuel injection is three-stage combustion in the two-stage combustion injection high-speed high-speed combustion, the overheated steam approaching 100 degrees is heated to around 800 degrees, and the superheated steam volume is nearly tripled As the water jet 79U, which makes the injection speed close to 3 times, increases the suction output of the combustion gas 49, and strongly injects each to suction and inject water, it approaches the theoretical air fuel ratio and is the most inexpensive The most efficient injection of combustion gas propellant and superheated steam propellant, the least expensive liquid metal gravity + sunlight + low cost fuel combustion, water jet injection of water jet 79U three stages combustion water jet, large expansion of steam turbine As a water jet 79U that combines speed and high-speed combustion of scramjet, it is used as a water jet 79U driven by a boat-like full blade liquid metal gravity solar thermal turbine 8G aiming at 10 times the speed of existing ships and supplies CO2 into the sea The present invention relates to a liquid metal gravity solar thermal engine technology that rapidly recovers and uses CO2 in the atmosphere, with the success of water jet prime CO2 recovery utilization.

Liquid metal calorific acceleration turbine + liquid metal mass acceleration turbine Gravity additional drive, liquid metal containing alloy as mercury, liquid lead, liquid bismuth, liquid tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium etc. In the process of turbine driving, a turbine blade that injects 400MPa by liquid metal jet pump 6J, accelerates optimum temperature liquid metal by compressed air heat + compressed air mass, and makes turbine blade cross section 4X 2 to 26 times of existing steam turbine The horizontal axis 1h is provided between the turbines by injecting 8c and increasing the rolling contact rotational output of liquid metal respectively, and making the amount of compressed air heat + mass infinite with the horizontal axis 1h generator 1 and the horizontal axis 1h heat pump 1G many Challenge outside the turbine case 77a, and offset the vibrations and noises by a plurality of vertical blades all liquid liquid solar thermal turbine 8G rotational direction alternately Heat-acceleration mass-acceleration turbine driven by heat pump 1G, long lens 2d heat-absorbing material 2B consists of intake air path 28A Intake air 28a of solar thermal heating and compress it to 800 to 1200 degrees and use solar thermal heating by compression heat recovery unit 2C Separately air 28a is heated to around 500 degrees, suction compression heat recovery is repeated with a heat pump, compressed air 28a production and heat production are made infinite continuation huge amount, atmospheric pressure same speed same volume work ratio kg weight m / s existing The present invention relates to a boat-like full blade liquid metal gravity solar thermal turbine 8G technology that drives water jet 79U as liquid fuel output of 1 to 23,000 times of steam turbine and rapidly recovers CO 2 in the atmosphere.

  If the sea surface temperature of the existing thermal power nuclear power generation continues to rise 7 degrees continuously for 100 years, the sea temperature rise amount exceeds 1000 times the present by 10% growth, so the rain, heavy rain, wind speed 10 times 300m / s as typhoon or monsoon The ice on the land approaches 0, and the food on land and the sea approaches 0, and there is a background to humanity extinction. There are already TV reports that seaweeds and fish near Japan near extinction, and information that fish has been sharply reduced to 1/100, etc. Considering the cause, some of the phytoplankton are killed in the process of 7 ° C increase in seawater temperature. The sea surface is cooled by the monsoon in winter, and it is extremely suspected that seaweeds, corals, etc. are near extinction due to the natural phenomenon of supplying nutrients such as nitrogen, oxygen and CO2 to the seabed. It is strong against In addition, in the current technology, all causes are reported as abnormal weather due to the increase of CO2 in the atmosphere. Moreover, there is a background that nobody can cooperate if there is little profit and cooperation is greater as the profit is greater. So the temperature rise of seawater 0CO2 exhaust 0 fuel cost 0 liquid metal gravity solar thermal power generation, CO2 huge solar thermal heating air is suction compression heat exchange and divided and stored as superheated steam heat + compressed air mass, each + liquid metal The turbine drive by gravity makes it possible for anyone to cooperate as the world's number one power generation with excellent profit rate, and supplies huge nitrogen, oxygen and CO2 as cold heat to the seabed in the process of exhaustion, and proliferates seaweeds, corals and plants Frankton. The food chain will be the best fish overgrowth experiment. And since the sea area is limited in power generation, nitrogen, oxygen and CO2 are recovered and supplied to the world's seas in the process of ship driving, plant Frankton etc. are greatly proliferated, fish are greatly proliferated in the food chain, Rapidly mass recovery of CO2 in the environment.

  Because the unit of horsepower and work rate is kg weight m / sec isoweight x velocity, it is theoretically the best engine to generate rotational output by accelerating a heavy substance by gravity acceleration, but there is a background that there is no trace considered. Therefore, it will be used as a wing-type full blade liquid metal solar thermal engine drive airplanes and ships with minimal consumption of fuel, and can be used in heat, electricity and cold heat supply facilities during stoppage, etc. Mercury, liquid lead, liquid bismuth, liquid tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc with the same volume work capacity kg-weight m / sec as the liquid metal work rate of 1 to 23,000 times that of the existing steam turbine・ When liquid metal such as liquid thallium is accelerated vertically by gravity downward, power generation is greatly increased by gravity acceleration only than input which increases the drop at low speed, and the number of turbines is increased. There is a background that can increase the output as much as possible. The greatest acceleration on earth is near infinity by gravity acceleration, and the theoretical best engine gravity power of sea water temperature rise 0, CO 2 exhaust 0 and fuel cost 0, as fossil power and other limited resources are exhausted, so the generation of limited resources Thermal energy and cold energy recovery means left behind in the generation of infinite and almost infinite power generation, gravity-powered storage battery drive and electric drive, a variety of cars and various ships, such as a full range of electrified homes and so on, extremely cheap There is a background that can be used for storage battery drive of electricity generation, prevention of global warming of electricity-driven CO2 exhaust 0, and large-scale aquaculture fishery for recovery of nitrogen, oxygen and CO2.

  It is expected that if China continues to grow at 10% for 50 years, the temperature rise of seawater will be 32 times that of the present, and Japanese monsoon wind will be 50 to 80m / sec, and the whole country will be polluted with seawater. It is feared that the greening of around 80% of Japan's large companies that offer the resumption of the current employment fear to Prime Minister Koizumi may have begun to be around around 80%, as greenery may be destroyed and successive deaths may extend to similar worlds We need wisdom to make Decided to invent the theoretical best engine in 1965. In fact, it began to improve and started trial production at the contract of the Okayama regional invention center in 1955, and continued trial production on its own, but trial production of the engine is very difficult. . Therefore, we started asking for a large number of large domestic companies to cooperate from February 1982. However, there is no cooperation from Japanese companies, etc. The cooperation of President Clinton who only asked foreign countries is obtained three or three times every request. The useless inventions of 1992 US Patent 5133305, 1993 US Patent 5230307 and 1995 US Patent 5429078 have been found. There are many fatal defects in the existing engine, and it turns out that it is impossible to improve the invention, and in a hurry and opens the 1997 home page, one defect patent application is filed and the 2008 theoretical best engine is reached To drive the generator and heat pump at a fuel cost of 0, for example, by gravity solar thermal power generation with the cooperation of the former president, and to enable extremely inexpensive manufacturing turbine drive for near infinite electricity and heat and cold, liquid metal below 500 ° C In power generation, I would like to make an atmospheric pressure same speed same volume work factor 1 to 23,000 times that of existing steam turbine power generation, actually experiment and shift to an experimental best engine.

U.S. Patent No. 6119650, Chinese Patent No. 8818, EU British Patent No. 902175, and U.S. Patent No. 6263664 improve the above-mentioned many background technologies, and also the invention of the process of the invention of the theoretical best engine. In the experiment aiming at the best of experiments, we will experiment with liquid metal gravity power generation to generate power of 1 to 23,000 times of steam turbine power generation, and solar heat as a seed to experiment with near infinite heat and heat production experiments with gravity driven heat pump. Let's make it 10 times the amount of power generation of the existing world by liquid metal gravity power generation, let's minimize the burning of the limited resources such as fossil fuel and leave it to the offspring, etc.

As prior applications, Japanese Patent Application No. 2008-6612, Japanese Patent Application No. 2008-22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008- No. 99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046, Japanese Patent Application No. 2008-137729, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111 No. 2008-166907, Japanese Patent Application No. 2008-169979, Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 2008-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179872, Japanese Patent Application No. 2008-181052 Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 20 No. 8-186795, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008-202677, Japanese Patent Application No. 2008-203842, Japanese Patent Application No. 2008-206632, Japanese Patent Application No. 2008-209497, Japanese Patent Application No. 2008-214912, Japanese Patent Application No. 2008 No.-229434, Japanese Patent Application No. 2008-231842, Japanese Patent Application No. 2008-243690, Japanese Patent Application No. 2008-245061, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008- No. 269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411, Japanese Patent Application No. 2008-290630, Japanese Patent Application No. 2008-295174, Japanese Patent Application No. 2008-299091, Japanese Patent Application No. 2008-305951, Japanese Patent Application No. 2008-319210 , Japanese Patent Application 2008-3 No. 7045, and Japanese Patent Application No. 2009-011656, Japanese Patent Application No. 2009-013856, Japanese Patent Application No. 2009-015027, Japanese Patent Application No. 2009-016249, Japanese Patent Application No. 2009-021161, Japanese Patent Application No. 2009-022247 aiming at the best experiment. Japanese Patent Application No. 2009-023345, Japanese Patent Application No. 2009-024512, Japanese Patent Application No. 2009-025684, Japanese Patent Application No. 2009-02698, Japanese Patent Application No. 2009-028105, Japanese Patent No. 2009-028150, Japanese Patent No. 2009-028253 Special Japanese Patent Application No. 2009-029406, Japanese Patent Application No. 2009-029471, Japanese Patent Application No. 2009-029539, Japanese Patent Application No. 2009-030759, Japanese Patent Application No. 2009-030865, Japanese Patent Application No. 2009-030942, Japanese Patent Application No. 2009-032264, Japanese Patent Application 2009-032312, Japanese Patent Application No. 20 No. 09-032378, Japanese Patent Application No. 2009-033490, Japanese Patent Application No. 2009-033534, Japanese Patent Application No. 2009-033679, Japanese Patent Application No. 2009-037263, Japanese Patent Application No. 2009-048869, Japanese Patent Application No. 2009-048951, Japanese Patent Application No. 2009 No. 0-049078, Japanese Patent Application No. 2009-057545, Japanese Patent Application No. 2009-057586, Japanese Patent Application No. 2009-057745, Japanese Patent Application No. 2009-077911, Japanese Patent Application No. 2009-078042, Japanese Patent Application No. 2009-09631, Japanese Patent Application No. 2009- Japanese Patent Publication No. 0996977, Japanese Patent Application No. 2009-099777, Japanese Patent Application No. 2009-101616, Japanese Patent Application No. 2009-101707, Japanese Patent No. 2009-101813, Japanese Patent No. 2009-102700, Japanese Patent No. 2009-102759, Japanese Patent No. 2009-102834 No. 2009- No. 13235, Japanese Patent Application No. 2009-113308, Japanese Patent No. 2009-113410, Japanese Patent No. 2009-114208, Japanese Patent No. 2009-114277, Japanese Patent No. 2009-114425, Japanese Patent No. 2009-117323, Japanese Patent No. 2009-117384. No. 2009-117501.

  Increase CO2 in the atmosphere Increase the downdraft and updraft by accelerating global warming, and increase the number of land food of human beings as much as possible. The phytoplankton, seaweeds, corals, etc. are drastically reduced, and the number of fish food depleted in fish by the food chain is drastically reduced to 1/100, etc. The danger of extinction is also expected, and CO2 emissions from thermal power plants, automobiles, airplanes and ships will be reduced to zero, and cooperation will be impossible if there is little profit, so CO2 in the atmosphere is the fastest in the world with excellent profitability. Needs to be recovered.

Therefore, as the power generation by liquid metal gravity solar thermal turbine, the atmospheric pressure same speed same volume work power kg weight m / sec is 1 to 23,000 times of the existing steam turbine rotational output, solar heat is driven without limit to many heat pumps Heat production is repeated by heating the air to compression high temperature and heating the solar heating air to 1200 ° C and repeating heat production, collect a large amount of CO2 and so on without limit and divide and store into superheated steam heat + compressed air mass The liquid metal gravity vacuum acceleration infinite head + superheated steam heat energy acceleration + compressed air mass acceleration each driven by the turbine, fuel cost 0 power generation excellent profit ratio world outstanding power generation anyone as cooperation easy, compressed air mass acceleration turbine driven exhaust Cold energy is recovered from all the atmospheres such as CO2 recovered in the process, and all the recovered atmospheres are supplied to the sea floor with nitrogen, oxygen and CO2 of the remaining cold energy as nutrients, and plants are the same as natural phenomena Were grown Rankuton and seaweed and coral, etc., the fish by the food chain in the CO2 recovery and utilization of the atmosphere to be large growth, and to the world of profit margins preeminent by the low-cost power generation. Then, CO2 is supplied by ships to the sea surface far exceeding the forest's CO2 recovery and utilization capacity, and CO2 and nitrogen and oxygen are supplied to the entire large sea surface, which is expected to have a capacity of 10,000 times, like solar thermal power generation. The growth of phytoplankton mainly using sunlight, and the increase in fish proportionate to food as in the case of aquaculture through the food chain, and the present invention etc. You

  Vertical-type all-rotor liquid-metal gravity solar thermal turbine 8G fuel cost 0 power generation has a large effect that can be made in the world with outstanding profit ratio, CO2 in the atmosphere decreases when CO2 is recovered as power generation amount 10 times the existing world power generation The effect of reducing CO2 emissions is remarkable when the liquid metal gravity solar power storage battery is driven by cars, ships, etc., electric driven home electrification, factory electrification, etc. When used, it has the effect of being able to supply a large amount of extremely inexpensive ice, and supplying CO2 after cold heat recovery to the sea floor with cold heat has a great effect of causing phytoplankton, seaweeds and fish and shellfish to multiply. Vertical-type all-wing liquid-metal gravity solar thermal engine Fuel cost is small and medium- and large-sized ship driving is the most effective in the world with outstanding profit ratio. When operated at 10 times the speed of existing ships, etc. In order to supply all the CO2 etc. collected in the process of injection and propulsion into the sea, it has the effect of greatly increasing fish in the breeding food chain, and the effect of reducing CO2 in the atmosphere is large. .

Explanatory drawing of a heat | fever-acceleration-acceleration-type all blade | wing liquid metal solar thermal turbine 8G (Example 1) Explanatory drawing of mass-acceleration-type all-rotor liquid-metal solar thermal turbine 8G (Example 2) Explanatory drawing of water suction injection water jet vessel 38C (Example 3) Explanatory drawing of water jet 79U (Example 4)

  The embodiments and examples of the invention will be described with reference to the drawings, but the same names and symbols are given to parts substantially the same as the ones in the embodiments and examples described above. It will be omitted as much as possible, and the characteristic parts and the inexplicable parts will be sequentially added and explained. In addition, although the idea is explained with hypothesized numbers in order to clearly explain the intended purpose and prediction specifically for the extremely difficult brain theory best engine invention, the correct answer is the experimental number of the theoretical best engine as the experimental number. Not limited to The idea that seems to be the best is redundantly explained in many applications, and the idea is selected and used according to the application, and the claim is variously changed to be selected and used according to the versatility, and the theoretical best engine includes sequential injection promotion Transfer to experiment best engine and put it to practical use.

  In the calorific-acceleration-type full bucket liquid metal solar thermal turbine 8G shown in FIG. 1, an increase ball lifter 2F with a heat retaining device is provided, and a liquid metal containing a compression heat recovery device 2C and an alloy temperature-controlled by electricity is on the top. Up-and-store, vertically installed turbines of 1 to 10 stages etc. in the outer box 77a in multiple stages to use according to the use number, injection compression heat energy acceleration gravity acceleration acceleration of 400 MPa etc. by liquid metal injection pump 6L, The vertical type full moving blade liquid metal solar thermal turbine 8G is driven, the horizontal shaft 1h is provided between the heat retaining turbines, and the heat pump 1G of the heat generator 1 and the heat producing apparatus are driven outside the turbine outer box 77a. The rotational direction is alternated to offset the vibration and noise slightly, and solar heat is used as a seed to produce near-infinite heat (superheated steam of compressed air heat) and cold heat (compressed air mass) with the heat pump 1G and the air heat exchanger 2X. Example For example, divided into 24 ~ 400MPa superheated steam + 200 ° around 24 ~ 400MPa compressed air mass around 400 degrees, heat energy acceleration turbine is driven by part of the superheated steam 50, most of them to the combustor 1Y of water jet 79U in Figure 5 A plurality of water jets are supplied to perform three-stage combustion such as heating the overheated steam 50 around the fuel injection combustion, and the water 491 and the overheated steam 50 injection temperature are brought close to each other to attract and inject water as both maximum velocity injection. With 79 U, a large amount of air bubbles are supplied to the bottom of the vessel in the process of injection and propulsion, and the friction loss is minimized to increase the levitation force, making the calorific-acceleration-type all rotor blade liquid metal solar heat turbine 8G of the vessel aiming at super high speed.

Heat-acceleration-type full bucket liquid metal solar heat turbine 8G exhaust is cooled by seawater after condensing and cooling with water condenser 2a to seawater and converted to superheated steam 50 with air heat exchanger 2X. The liquid metal solar thermal turbine 8G is driven by 50 calories of superheated steam of liquid metal, and the inner moving blade group 60C and the outer moving blade group 60D are fitted bolt assembly as nearly identical in shape with the same diameter for every stage so as to enable full automatic processing. Enables a multistage moving blade group and a multistage turbine, as well as fully automatic processing and assembly facilitation, and a gravity acceleration unit 1g that accelerates a liquid metal includes a horizontal axis 1h through hole for driving a large number of generators 1 and heat pumps 1G. To drive the generator 1 and the heat pump 1G outside the turbine outer box 77a thermally insulated to keep the compressed air of solar heating 800 to 1200 degrees C., another of solar heating with the air heat exchanger 2X Heat the air to 500 ° C, etc. Reduce the pressure to about 1200 degrees, and repeatedly increase the production volume of high-pressure compressed air 28a and superheated steam 50, so that the same atmospheric pressure and the same volume work ratio kg weight m / sec is 1 to 23,000 times that of the existing steam turbine Then, it is injected to the turbine blade cross section 4X which is 2 to 26 times the cross sectional area of the existing turbine blade cross section to generate rolling contact rotation output, and in the process of exhausting it is cooled by seawater after condensate cooling by water condenser 2a The air extractor 51 is evacuated to produce compressed air mass and heat (superheated steam), and the atmosphere such as CO2 is recovered to a heat energy-accelerating-type full blade liquid metal solar heat turbine 8G.

  In the mass-acceleration-type all-blade liquid metal solar thermal turbine 8G shown in FIG. 2, an increase ball lifter 2F with a heat retaining device is provided, and a liquid metal containing a compression heat recovery device 2C and an electrically temperature controlled alloy is on the top. Up-and-store, vertically installed 1 to 10 stages of multi-stage turbine etc. in the outer box 77a to use according to the number of use according to the application, 400 Mpa injection by liquid metal injection pump 6L, compressed air mass acceleration Gravity acceleration acceleration The rotor type full bucket liquid metal solar thermal turbine 8G is driven, the horizontal shaft 1h is provided between the heat retaining turbines, and the heat pumps 1G of the generator 1 and the heat producing apparatus are driven outside the turbine outer box 77a. The rotation direction of 8G is alternated to offset the vibration and noise slightly, and solar heat is used as the heat pump 1G and the air heat exchanger 2X to achieve near infinite heat (overheated steam of compressed air heat) and cold heat (compressed air mass) To manufacture For example, it is divided and stored as about 400 degrees 24-400 MPa superheated steam + about 200 degrees 24-400 MPa compressed air mass, and a part of it is driven by the turbine to supply most to the combustor 1Y of the water jet 79U in FIG. The superheated steam 50 around the fuel injection combustion is heated to three-stage combustion, and the combustion gas 49 and the superheated steam 50 injection temperature are brought close to each other to make the water jet 79U that sucks and injects water as both maximum velocity injections. By supplying a large amount of air bubbles to the bottom of the ship, the friction loss is minimized to increase the levitation force, and the vessel's mass-accelerating wing-type full blade liquid metal solar thermal turbine 8G is aimed at ultra-high speed.

In the process of mass-acceleration-type all-rotor liquid-metal solar thermal turbine 8G rotational power generation, heated volume of compressed air 28a which approaches absolute 0 degrees by high temperature of liquid metal 500 degrees or less increases the acceleration speed of mass acceleration The rotational power of the turbine is also greatly increased, and the exhaust temperature greatly changes depending on the liquid metal used in the process of exhausting, so after condensing cooling of the calorific turbine with the condensing water cooler 2a or directly with the air extractor Dissolving friction loss to seawater from the bottom of the ship, or repeatedly using the air extractor 51 with a heat pump to carry out compression heat recovery, make the superheated steam 50 by using the compression heat recovery device 2C, and make the turbine 8G liquid metal The inner moving blade group 60C and the outer moving blade group 60D enable multi-stage turbines in the same manner as the thermal energy accelerated turbine 8G, and the turbine 1 and the heat pump 1G are thermally insulated. Drive outside of the outer box 77a, make the air of solar heating compressed 800-1200 degrees, and heat the other air of solar heating with the air heat exchanger 2X to 500 degrees C etc. and make the compression around 1200 degrees, Repeatedly increase the production volume of high pressure compressed air 28a and superheated steam 50 to make atmospheric pressure same velocity same volume work power kg weight m / s 1 to 23,000 times of existing steam turbine and cut existing turbine blade It is injected to the turbine blade cross section 4X made 2 to 26 times the cross sectional area of the area to generate rolling contact rotational power to heat the compressed air, and the air extractor 51 is used as a heat pump in the process of exhausting again compressed water jet 79U As the injection, we will use a mass-acceleration-type all-blade liquid metal solar thermal turbine 8G that recovers and uses the atmosphere such as CO2.

  In the water suction injection water jet vessel 38C injection propulsion power generation of FIG. 3, since the use of gravity is limited, as the use of a turbine for heat energy acceleration and mass acceleration, the drop due to multi-blade type full blade liquid metal solar heat turbine 8G horizontal selection use etc. In the process of suctioning the air 28a from the wing inlet edge 28B, the solar heating air 28a is suctioned by the suction air passage 28A composed of the long lens 2d heat absorbing material 2B to drive multiple turbines. The heat pump 1G compresses the temperature to 800 ° C to 1200 ° C, and the air heat exchanger 2X repeats the heat recovery of the heat recovery heat pump 1G compression with another air 28a of solar heating, and heat is generated repeatedly as necessary. High pressure combustion heat exchange cooling combustion without limit to injection combustion, repeated compression at around 1200 degrees and repeating heat recovery with air heat exchanger 2X, 24 to 400 MP The superheated steam 50 and 49 mass of 24-400MPa combustion gas are produced, the turbine is driven by the part, most is supplied to the water jet 79U plural combustors 1Y of Fig. 4 and the superheated steam 50 around the fuel injection combustion is heated As the two-stage combustion three-stage combustion, etc., the injection temperature of the superheated steam 50 is made close to the combustion gas 49 injection temperature 900 degrees etc., and the superheated steam injection speed is tripled etc. Maximize the water suction and injection power of the jet 79U, suction and inject water into the bottom enclosure from the foremost part of the hull, levitate and promote the entire hull and supply the largest amount of air bubbles to the entire bottom of the hull, and rise to the lowest friction loss The power is maximized, and various medium and large vessels are brought close to the speed of sound to reduce CO2 in the atmosphere and increase fish.

The water jet 79U shown in FIG. 4 opens the overheated steam control valve 25 to supply the overheated steam 50 divided and stored to the uppermost stream of the overheated steam reservoir 95c on the outer periphery of the combustor 1Y, from the combustion gas control valve 24 to the compressed air control valve. 24A is opened, 24-400MPa combustion gas 49 is supplied to the uppermost stream of combustion gas reservoir 95a around 200 degrees, and fuel 1b is injected from fuel injection nozzle 6X by fuel control valve 25b open fuel injection pump 1D. The combustion output temperature of the peripheral superheated steam reservoir 95c is increased by heating the superheated steam 50 at the top of the combustor 1Y by heating the superheated steam 50 of the outer peripheral superheated steam 50 A plurality of combustion gas injection nozzles 6Y are provided on the outer periphery of the superheated steam reservoir 95c, and a fuel injection two-stage combustion system is generated from each fuel injection nozzle 6X in the single-stage combustion injection stream. The optimal distance combustion is performed, and the superheated steam 50 is heated by the optimal distance from the outer periphery to increase the injection output and the combustion gas suction output, and a plurality of combustor combustion gas injection nozzles 6Y are provided inside the superheated steam 50 injection stream, The fuel injection 3-stage combustor multiple optimal distance combustion from the fuel injection nozzle 6X, and the superheated steam approaching 100 degrees by the multiple burners in the superheated steam 50 injection stream is made 900 degrees etc., and the superheated steam 50 injection temperature is the combustion gas 49 Close to the injection temperature, approximate the superheated steam injection speed to 3 times, increase the combustion gas suction output to facilitate high-speed combustion, maximize the water suction injection output of the water jet 79U, and make the fish quantity proportional to food; Supply nutrients such as nitrogen, oxygen, and CO2 to increase fish food production through phytoplankton and other food chains to greatly increase fish, thereby rapidly reducing CO2 in the atmosphere. It is.

  0: Vacuum, 1: Generator, 1A: Mercury Exhaust Inspection Room, 1B: Means of increasing oxygen level, 1C: Alcohol cold heat, 1D: Fuel injection pump, 1F: Condensate pump, 1G: Heat pump, 1H: Pumping pump, 1J: Water pumping apparatus, 1Y: Combustor, 1b: Fuel, 1c: Specific substance, 1d: Mercury, 1e: Coated steel ball (coated with impact reducing means 2G) 1e: Coated mercury (spherical stainless steel durable material or impact 1g: Gravity acceleration part, 1h: Horizontal axis, 2: Sunlight heater (tilt and rotate sunlight with long lens) 2a: Water condenser, 2a: Condenser cooler, 2b: Solar thermal augmentation suspension bridge (vertically suspended lifting gear left and right to tilt and track sunlight with multiple steps of long lens) 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: lifting tool left, 2g: hanging Ingredient right, 2h: seawater cooler, A: heat resistant material, 2B: heat absorbing material, 2C: compression heat recovery device, 2D: power increase means, 2E: power increase sphere (mercury, liquid lead, liquid tin, liquid bismuth, liquid cadmium, liquid indium, liquid gallium, Liquid Zinc · Liquid Thallium · Liquid Metal · Water · Platinum Ball · Coated Platinum Ball · Gold Ball · Coated Gold Ball · Platinum Alloy Ball · Gold Alloy Ball · Lead Alloy Ball · Silver Alloy Ball · Coated Platinum Alloy Ball · Coated Gold Alloy Ball -Coated lead ball-Coated silver alloy ball-Tungsten alloy ball-Coated tungsten alloy ball-Tungsten steel ball-Coated tungsten steel ball-Tantalum alloy ball-Coated tantalum alloy ball-Molybdenum steel ball-Coated molybdenum steel ball-Molybdenum cast iron ball-Coating Molybdenum cast iron balls, silver balls, coated silver balls 2F: Increase ball raising device, 2G: Impact reduction means (covers with small balls, lubricating oils, incombustible liquids, rubbers, plastics, etc.) 2 : Cold heat condenser, 2J: Liquid metal heat exchanger, 2K: Lubricating material, 2X: Air heat exchanger, 2Y: Water heat exchanger, 2Z: Mercury heat exchanger, 3: Friction loss reduction means (water repellent Reduction of friction loss by means of optimum utilization known techniques such as action and heating high temperature means and coating 3A: Water repellent action (means for reducing friction loss with water) 3B: Heating high temperature means (high temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold heat recovery means, 3G: Water repellant action (friction loss reduction means for mercury) 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section (output surface less curved cross section) 4C: Turbine blade cross section (output surface) Straight section) 4D: Turbine blade section (output opposite surface straight section) 4E: Turbine blade section (output opposite curved surface minor section) 4F: Turbine blade section (existing opposite section) 4X: Turbine blade section (selected from 4A to 4F) cross section 5C: air exhaust chamber, 6: nozzle, 6a: nozzle injection part, 6b: nozzle injection part, 6d: nozzle injection part, 6z: water injection pump, 6A: superheated steam injection nozzle, 6B: liquid lead injection pump, 6C: Liquid tin injection pump, 6D: liquid bismuth injection pump, 6E: liquid zinc injection pump, 6F: compressed air injection nozzle, 6H: liquid cadmium injection pump, 6I: liquid indium injection pump, 6J: liquid gallium injection pump, 6K: liquid Thallium injection pump, 6L: liquid metal injection pump, 6X: fuel injection nozzle, 6Y: combustion gas injection nozzle, 6Z: mercury (liquid metal) injection pump, 7: fuel injection valve, 7A: propeller, 7B: rotor blade, 7C : Screw, 7E: Rotor blade, 8a: All moving blade impacting wheel gas turbine (all moving blade gas turbine or All moving blade mass turbine) 8b: All moving blade water turbine (all moving blade water turbine or total moving blade thermal turbine) 8c: Turbine blade 8d: Side plate 8e: Cylindrical body 8E: All moving blade elastic wheel mercury Turbine (full blade mercury turbine or full blade thermal energy turbine) 8F: Full blade flexible ball gravity turbine, 8G: Vertical full blade gravity solar thermal turbine (vertical full blade thermal turbine + vertical full blade mass turbine) 8K: Liquid metal gravity opposing turbine (opposite turbine opposing calorific turbine opposing mass turbine) 8K: opposing series all moving blade impact wheel turbine (opposed series all moving blade impaction wheel mercury turbine opposed series all moving blade impacting wheel water turbine opposed series total moving blade Bumping car gas turbine facing in-line all moving wings Bumping car gravity turbine, 8L: In-line all moving wing Bumping car turbine (in-line all moving wing Bumping car mercury turbine in-line all moving wing Bumping car water roller -Bin Series All Rotor-Bumping Wheel Gas Turbine Series Full Rotor-Winding Ball Gravity Turbine), 10: Hull, 10a: Expanded compression chamber, 10b: Cockpit, 10c: Control room, 10d: Cabin, 10e: Cargo compartment, 11A: Bulkhead 11B: Water chamber 11C: Air chamber, 11D: Vacuum chamber, 16: Crankshaft, 16A: Horizontal shaft, 21: Expansion piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Overheated steam control Valve, 25B: high temperature water control valve, 25a: intake valve, 25b: fuel control valve, 28a: air, 28a: internal air, 28a: air tube air, 28b: compressed air heat quantity, 28A: intake air passage, 28B: air Road entrance, 37a: Magnetized friction car, 37b: Internal magnetized friction car, 38a: Flying cylinder, 38b: Flying wing, 38c: Flying tail wing, 38d: Vertical wing, 38e: Wing leading edge, 38g: surface wing, 38A: gravity plane, 38B: air suction jet water jet vessel, 38C: water suction jet vessel, 39A: solar thermal gravity plane, 39A: liquid metal gravity solar thermal spacecraft, 39B: solar thermal Gravity rotation plane, 39B: Liquid metal gravity solar thermal aircraft, 39C: Solar thermal gravity helicopter, 39C: Liquid metal gravity solar thermal flight vessel, 39D: Screw ship, 39D: Liquid metal gravity solar thermal vessel, 39F: Space flight, 39G: Space flight Flight vessel, 40A: Rudder, 46: Magnet part, 49: Combustion gas, 49B: Chimney combustion gas heat quantity, 49C: Factory heat quantity, 50: Superheated steam, 51: Air extractor, 52a: Water, 52b: Water (sun Water that changes temperature with light) 52b: high temperature water, 52d: heat, 52d: water temperature heat, 52d: Superheated steam thermal, 52e: Cold, 52e: Water-cooled heat, 52e: Compressed air cold, 52e: Alcohol cold, 52e: Ice-cooled heat, 55: Gear-type synchronizer (including magnetic friction synchronizer) 55B: Magnetic friction shift Device (including gear type and water pump combination) 55Y: Gear type transmission (selected from existing transmissions) 60A: inner shaft device, 60B: outer shaft device, 60C: inner blade group, 60D: outer blade group, 77B: Cylindrical outer box, 77D: Water jet outer box, 77F: Injection outer box, 77G: Cylindrical rotary part, 77a: Turbine outer box, 78K: Combined engine injection part, 78S: Combined engine injection part (scramjet + Steam turbine etc. 78T: Combined engine injection part (scramjet + steam turbine etc) 78U: Combined engine injection part (scramjet + 78V: Combined engine injection part, 79K: Combined engine injection part, 79M: Water jet, 79S: Water jet, 79T: Water jet, 79U: Water jet, 79V: Water jet, 80: Bearing, 80a: Thrust Bearings 80A: Joints 80B: Fasteners 81: Support shafts 81a: Support points 84: Double reversal magnetic friction power transmission device (including gear type and water pump combined use) 84Y: Double reversal gear device (existing Technology) 94: Fixed outer box, 94A: Vertical part of outer box, 95: High temperature water reservoir, 95a: Combustion gas reservoir, 95b: Compressed air reservoir, 95c: Overheated steam reservoir, 95A: Water absorption path, 95B: Fuel reservoir, 96A: Water supply channel, 97: check valve, 103: cold heat recovery unit,

Claims (5000)

  Water jet (79U) using CO2 combined with the atmosphere to make the turbine blade cross section (4A) a 3-stage combustion water jet (79U) with the temperature of the turbine driven superheated steam injection approaching 2 to 26 times the combustion gas injection temperature Increase the injection propulsion output + save and raise the liquid metal with the increase ball raising device (2F) + compressed air heat energy and mass and liquid metal gravity compressed air production heat production + turbine rotor blade group as same diameter of each stage Various energy storage cycle combined engines with mating bolt assembly turbines.   Water jet (79U) using CO2 combined with the atmosphere to make the turbine blade cross section (4B) 5 times the temperature of the turbine drive superheated steam injection temperature five times the combustion gas injection temperature Propulsion power increase + Increase and store liquid metal with increase ball rise device (2F) + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat production + Joining turbine blade group of turbine with almost same shape in every stage Various energy storage cycle combined engines with bolt assembly turbines.   Water jet (79U) using CO2 combined with the atmosphere to make water jet (79U) of three-stage combustion that makes the turbine blade cross section (4C) 6 times the one-stage turbine drive superheated steam injection temperature close to combustion gas injection temperature Increase the injection propulsion output + save and raise the liquid metal with the increase ball raising device (2F) + compressed air heat energy and mass and liquid metal gravity compressed air production heat production + turbine rotor blade group as same diameter of each stage Various energy storage cycle combined engines with mating bolt assembly turbines.   Water jet (79U) using CO2 combined with the atmosphere to make water jet (79U) of three-stage combustion that brings the turbine blade cross section (4D) to seven times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature Increase the injection propulsion output + save and raise the liquid metal with the increase ball raising device (2F) + compressed air heat energy and mass and liquid metal gravity compressed air production heat production + turbine rotor blade group as same diameter of each stage Various energy storage cycle combined engines with mating bolt assembly turbines.   Water jet (79U) using CO2 combined with the atmosphere to make water jet (79U) of three-stage combustion that brings the turbine blade cross section (4E) to eight times the 3-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature Increase the injection propulsion power + save the liquid metal with the increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity compressed air production heat production + turbine rotor blade group of each stage the same diameter for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4F) 9 times the four-stage turbine drive superheated steam injection temperature 9 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 10 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the 7-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4E) 14 times the nine-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4A) 16 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4B) 17 times the one-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4D) 19 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 20 times the four-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 21 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 22 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 23 times the 7-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4C) 24 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 25 times the 9-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make 10-stage turbine drive superheated steam injection temperature twice the turbine blade cross-section (4E) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) triple the speed of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4A) quadrupled to 1-stage turbine drive superheated steam injection temperature four times + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Two-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4B) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature of 6 times the turbine blade cross-section (4C) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) seven times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) eight times the five-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) nine times as high as the six-stage turbine drive superheated steam injection temperature nine times + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 10 times 7 times the turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 11 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the 9-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 13 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 14 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage water jet (79U) of combustion + CO2 rapid recovery use with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) 15 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 16 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 17 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 18 times the four-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 19 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Makes the turbine blade cross section (4E) 20 times the six-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4F) 21 times the 7-stage turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4A) 22 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4B) 23 times the 9-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4C) 24 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4D) 25 times the temperature of the turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79 U) A plurality of energy storage cycle coalescing engines, which are a heat retaining turbine that is driven by a plurality of units + raised and stored liquid metal by an increase ball raising device (2F) + heat driven by compressed air etc.   Three-stage combustion water jet (79U) that doubles the turbine blade cross-section (4E) and drives the superheated steam injection temperature to twice that of the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + Various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Two-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4F) to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Three-stage turbine drive superheated steam injection temperature quadrupled to 4 times the turbine blade cross-section (4A) to make the water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4B) five times the four-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO 2 atmosphere and various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Makes the turbine blade cross section (4C) 6 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4D) seven times the six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4E) eight times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recovered with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4F) 9 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 rapidly recover with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4A) 10 times the speed of the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy conservation cycle combined engines where the rotating blade group of the turbine has the same diameter and approximately the same shape for each stage and the mating bolt assembly turbine.   Makes the turbine blade cross section (4B) 11 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 12 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4D) 13 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4A) into a water jet (79U) with three stages of combustion with the 16th stage 4-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make the turbine + accelerate the power increase ball (2E) to a small diameter + compressed air heat production with heat and mass of the compressed air and liquid metal gravity + heat production of the compressed air + fitting of the bolt assembly And various energy conservation cycle coalition agencies.   Make the turbine blade cross section (4B) 17 times the 5-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make the turbine + accelerate the power increase ball (2E) to a small diameter + compressed air heat production with heat and mass of the compressed air and liquid metal gravity + heat production of the compressed air + fitting of the bolt assembly And various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with 18 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + accelerate the power increase ball (2E) to a small diameter + compressed air heat production with heat and mass of the compressed air and liquid metal gravity + heat production of the compressed air + fitting of the bolt assembly And various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + accelerate the power increase ball (2E) to a small diameter + compressed air heat production with heat and mass of the compressed air and liquid metal gravity + heat production of the compressed air + fitting of the bolt assembly And various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with 20 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make the turbine + accelerate the power increase ball (2E) to a small diameter + compressed air heat production with heat and mass of the compressed air and liquid metal gravity manufacture + fitting the rotor blade group of the turbine with the same diameter and diameter for each paragraph Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4F) 21 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + power increase sphere (2E A small diameter of a small diameter accelerated turbine driving + Compressed air heat quantity and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine with same diameter and almost same shape for every stage organ.   Make the turbine blade cross section (4A) 22 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + power increase sphere (2E A small diameter of a small diameter accelerated turbine driving + Compressed air heat quantity and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine with same diameter and almost same shape for every stage organ.   Make the turbine blade cross section (4B) 23 times the temperature of the turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + power increase sphere (2E) A variety of energy storage cycle coalescing engines, which are driven by an accelerating turbine driven by a small diameter + compressed air heat produced by compressed air heat, mass and liquid metal gravity, and with the rotor blade group of the turbine having the same diameter and diameter.   Make the turbine blade cross section (4C) 24 times the 1st stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + power increase sphere (2E A small diameter of a small diameter accelerated turbine driving + Compressed air heat quantity and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine with same diameter and almost same shape for every stage organ.   Make the turbine blade cross section (4D) 25 times the 2-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + power increase sphere (2E A small diameter of an acceleration turbine is driven + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air manufacturing heat + Various energy with the rotating blade group of the turbine having the same diameter and the same shape for every paragraph Preservation cycle union agency.   Three-stage turbine drive superheated steam injection temperature doubling the turbine blade cross-section (4E) to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4F) tripled and the four-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered with the atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) five times the six-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 6 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) seven times eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) eight times the 9th stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   A 10-stage turbine driven by a 9-fold turbine blade cross-section (4F) is brought to a combustion gas injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the temperature of the turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 11 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4C) 12 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the three-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the four-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the 5-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4B) into a 17-stage seven-stage turbine-driven superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 18 times 8-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage nine-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade section (4E) into a water jet (79U) of three-stage combustion with 20 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat the compressed air with heat and mass and liquid metal gravity Heat production by compressed air + Insert the rotor blade group of the turbine with the same diameter and diameter for each paragraph Various energy storage cycle combined engines with combined bolt assembly turbines.   Makes the turbine blade cross section (4A) 22 times 1-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the two-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 25 times the four-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) twice the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) tripled and three-stage six-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered and used together with the atmosphere + various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the 7th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) five times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 6 times the 9-stage turbine drive superheated steam injection temperature Make the water jet (79 U) of 3 stage combustion close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + Various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) seven times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) 8 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 9 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature of 11 times the turbine blade cross section (4B) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4C) 12 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4D) 13 times the 5-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the six-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 17 times the speed of the nine-stage turbine driven superheated steam injection temperature 17 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapidly recover with CO2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4C) 18 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4E) into a water jet (79 U) of three-stage combustion with 20 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 22 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to alternate rotation direction Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4B) 23 times the four-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times the 5-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times the six-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4E) double the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4F) triple the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4A) quadruple the 9th stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross-section (4B) five times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 6 times the temperature of the turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three stages combustion + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4D) seven times the one-stage turbine drive superheated steam injection temperature Make the water jet (79U) of the three-stage combustion close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + Various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) eight times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature of 9 times the turbine blade cross section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the four-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the 5-stage turbine drive superheated steam injection temperature to make the water jet (79U) of the 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 12 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   7th stage turbine drive superheated steam injection temperature 13 times the turbine blade cross section (4D) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4E) 14 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the speed of the 9th stage turbine driven superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4B) 17 times the temperature of the turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4C) 18 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage 2-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade section (4E) 20 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) with three stages of combustion with the 21-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79 U) of three-stage combustion with 22 times 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with 23 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4C) 24 times the 7-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) twice the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) triple the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4A) four times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   Make the turbine blade cross section (4B) five times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4C) 6 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) seven times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4E) eight times the four-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 9 times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recover and use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the six-stage turbine drive superheated steam injection temperature to make the water jet (79 U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downwards to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the 7-stage turbine drive superheated steam injection temperature to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 12 times the 8-stage turbine drive superheated steam injection temperature to make the water jet (79U) of the 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 13 times the nine-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downwards to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) 14 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4F) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4A) 16 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 17 times the two-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 19 times the four-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4E) into a water jet (79 U) of three-stage combustion with 20 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21-stage six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 22 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to alternate rotation direction Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with 23 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with 24 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross-section (4D) 25 times 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) double the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4F) triple the triple-stage turbine-driven superheated steam injection temperature tripled to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) four times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 5 times the three-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4C) 6 times the four-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) seven times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) eight times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) nine times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 10 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the nine-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 12 times the 10-stage turbine drive superheated steam injection temperature Make the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerate the liquid metal downward to drive the liquid metal + Various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 13 times the temperature of the turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross-section (4E) 14 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature of 15 times the turbine blade cross section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4A) 16 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4B) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times the 5-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 19 times the six-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 20 times the 7-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21-stage 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 22 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4B) 23 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 24 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79 U) of three-stage combustion + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 25 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross-section (4E) twice the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) triple the three-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) quadruple four-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) five times the five-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) six times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make 7-stage turbine drive superheated steam injection temperature of 7 times the turbine blade cross section (4D) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4E) eight times the eight-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Turn the turbine blade cross section (4F) into a 9-stage nine-stage turbine drive superheated steam injection temperature to a combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make 10-stage turbine drive superheated steam injection temperature 10 times the turbine blade cross section (4A) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 11 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets of various ships 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat production + Moving blade group of turbine for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 13 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) 14 times the three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Four-stage turbine drive superheated steam injection temperature of 15 times the turbine blade cross section (4F) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   To make the turbine blade cross section (4A) 16 times 5-speed turbine drive superheated steam injection temperature to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4B) 17 times the temperature of the seven-stage turbine drive superheated steam injection temperature 17 times that of the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 19 times 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 20 times the speed of superheated steam injection driven by the nine-stage turbine 20 times that of the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapidly recover with CO2 atmosphere + increase ball lifter 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4F) 21 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4A) into a water jet (79 U) of three-stage combustion with 22 times the temperature of the turbine drive superheated steam injection close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with 23 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79 U) of three-stage combustion with the temperature of the two-stage turbine driven superheated steam injected 24 times that of the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 25 times 3-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade section (4E) into a water jet (79U) of three-stage combustion with the double-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4F) triple the five-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) quadruple the 6th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) five times the 7-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 6 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) seven times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross-section (4E) eight times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 9 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4A) 10 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 using the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 11 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 using the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 12 times the three-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 with the atmosphere + various ships water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4D) 13 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + drive the liquid metal downward to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4E) 14 times five times the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 15 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 16 times seven-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 17 times the 8-stage turbine drive superheated steam injection temperature to make the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4C) 18 times the speed of the superheated steam injection heated by the nine-stage turbine 18 times that of the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 atmosphere + 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4D) 19 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) 20 times the temperature of the turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4F) 21 times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 22 times two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with the 23-stage three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with 24 times the four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 25 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with the 6-stage turbine drive superheated steam injection temperature twice as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 7-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4A) quadruple the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 5 times the 9-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 6 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4D) 7 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4E) eight times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4F) into 9 times 2-stage turbine drive superheated steam injection temperature and make it a 3-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 10 times the three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 11 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 12 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 13 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4E) 14 times the seven-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 15 times 8-stage turbine driven superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 16 times 9th turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 17 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 18 times the temperature of the turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4D) a water jet (79 U) of three-stage combustion with the 19-stage one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating a power-increasing sphere (2E) to make a turbine blade cross section (4E) 20 times the temperature of a two-stage turbine driven superheated steam injection heated to a combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4F) 21 times three-stage turbine drive superheated steam injection temperature and make the water jet (79U) of three-stage combustion close to combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4A) a 22 times four-stage turbine driven superheated steam injection temperature and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4B) 23 times the 5-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion ++ Increase and store the liquid metal with an increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Production heat production + Fit the rotor blade group of the turbine with the same diameter and approximately the same shape for each paragraph Various energy storage cycle combined engines with bolt assembly turbines.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4C) a water jet (79U) of three-stage combustion in which the temperature of the superheated steam injection heated by six stages of 24 stages is brought close to the combustion gas injection temperature (79U) ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Configuration and method of accelerating the power increase sphere (2E) to make the turbine blade cross section (4D) 25 times 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4E) double the eight-stage turbine drive superheated steam injection temperature and make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4F) triple the nine-stage turbine drive superheated steam injection temperature tripled and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Heat production of the air + Turbine rotor blade group with the same diameter approximately the same shape every stage And various energy conservation cycle coalition agencies.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4A) four times the 10-stage turbine drive superheated steam injection temperature and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store the liquid metal with an increase ball lifter (2F) + Compressed air heat production and heat by compressed air heat and mass and liquid metal gravity Production heat production + Fit the rotor blade group of the turbine with the same diameter and approximately the same shape for each paragraph Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4B) 5 times the temperature of the turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4C) six times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) seven times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross section (4E) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 9 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4A) 10 times the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 11 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 13 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 14 times the nine-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make 10-stage turbine drive superheated steam injection temperature 15 times the turbine blade cross-section (4F) close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 16 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery use with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4B) 17 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 18 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 19 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 20 times the four-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 21 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 22 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 23 times the 7-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 24 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 25 times the 9-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make 10-stage turbine drive superheated steam injection temperature twice the turbine blade cross-section (4E) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) triple the speed of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4A) quadrupled to 1-stage turbine drive superheated steam injection temperature four times + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Two-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4B) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature of 6 times the turbine blade cross-section (4C) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4D) seven times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4E) eight times the five-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) nine times as high as the six-stage turbine drive superheated steam injection temperature nine times + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4A) 10 times 7 times the turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4b) 11 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4C) 12 times the 9-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4D) 13 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4E) 14 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage water jet (79U) of combustion + CO2 rapid recovery use with the atmosphere + watercraft various cargo ships (79 U) A plurality of energy storage cycle coalescing engines, which are a heat retaining turbine that is driven by a plurality of units + raised and stored liquid metal by an increase ball raising device (2F) + heat driven by compressed air etc.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) 15 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Makes the turbine blade cross section (4A) 16 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 rapidly recover with the atmosphere + intake air path length lens Produce heat and cold with sunlight and heat + increase heat retention ball rise device (2F) as much as possible + raise the rise of liquid metal with increase ball rise device (2F) + Compress compressed air with heat and mass and liquid metal gravity A variety of energy storage cycle coalescing engines, in which air production heat production + turbine rotor blade groups have the same diameter and diameter and are approximately the same in diameter.   Make the turbine blade cross section (4B) 17 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Produce heat and cold with sunlight and heat + increase heat retention ball rise device (2F) as much as possible + raise the rise of liquid metal with increase ball rise device (2F) + Compress compressed air with heat and mass and liquid metal gravity A variety of energy storage cycle coalescing engines, in which air production heat production + turbine rotor blade groups have the same diameter and diameter and are approximately the same in diameter.   Makes the turbine blade cross section (4C) 18 times the four-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Produce heat and cold with sunlight and heat + increase heat retention ball rise device (2F) as much as possible + raise the rise of liquid metal with increase ball rise device (2F) + Compress compressed air with heat and mass and liquid metal gravity A variety of energy storage cycle coalescing engines, in which air production heat production + turbine rotor blade groups have the same diameter and diameter and are approximately the same in diameter.   Makes the turbine blade cross section (4D) 19 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with atmosphere + intake air path length lens Produce heat and cold with sunlight and heat + increase heat retention ball rise device (2F) as much as possible + raise the rise of liquid metal with increase ball rise device (2F) + Compress compressed air with heat and mass and liquid metal gravity A variety of energy storage cycle coalescing engines, in which air production heat production + turbine rotor blade groups have the same diameter and diameter and are approximately the same in diameter.   Makes the turbine blade cross section (4E) 20 times the six-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + intake air path length lens Produce heat and cold with sunlight and heat + increase heat retention ball rise device (2F) as much as possible + raise the rise of liquid metal with increase ball rise device (2F) + Compress compressed air with heat and mass and liquid metal gravity Air production heat production + Various energy conservation cycle combined engines where the rotor blade group of the turbine has the same diameter and approximately the same shape for each paragraph, and each paragraph has a fitting bolt assembly turbine.   Make the turbine blade cross-section (4F) 21 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 22 times 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the 9-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 24 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4D) 25 times the temperature of the turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with the double-stage one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with the two-stage turbine drive superheated steam injection temperature three times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with the triple-stage turbine drive superheated steam injection temperature four times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with the four-stage turbine drive superheated steam injection temperature five times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79 U) of three-stage combustion with the 5-stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4D) seven times the six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) eight times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 9 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 10 times the speed of the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4C) 12 times the temperature of the turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4D) 13 times the single-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a three-stage combustion water jet (79 U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 14 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 15 times 3rd stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 16 times the four-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 17 times the five-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 18 times the six-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature close to the three-stage combustion water jet (79U) + accelerate the liquid metal downward and drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4D) 19 times 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) 20 times the eight-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 21 times the nine-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4A) 22 times 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly recovered with air 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4B) 23 times the temperature of the turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4C) 24 times the 1st stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with atmosphere +++ 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times the 2-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + + + 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) twice the three-stage turbine drive superheated steam injection temperature doubled with the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly recovered with air 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with the four-stage turbine drive superheated steam injection temperature three times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with the 5-stage turbine drive superheated steam injection temperature four times as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with 5 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with the 7th stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with a 7-fold 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4E) eight times the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   A 10-stage turbine driven superheated steam injection temperature of 9 times the turbine blade section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4A) 10 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4B) 11 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 12 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4D) 13 times the 3-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a 3-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 14 times the four-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 15 times the five-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 16 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recover and use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 17 times the 7-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   8th stage turbine drive superheated steam injection temperature to 18 times the turbine blade cross section (4C) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 19 times the nine-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   10-stage turbine drive with 20 times the turbine blade cross-section (4E) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to accelerate the liquid metal + Various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 21 times the temperature of the turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 22 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4B) 23 times the two-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 25 times the four-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) twice the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) triple the six-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with the 7-stage turbine drive superheated steam injection temperature quadrupled to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with five times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with the 9th stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79U) of three-stage combustion with the 10th stage turbine drive superheated steam injection temperature seven times as close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with the 8x turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) for rotating direction alternate turbine + Lift and store the liquid metal with the increase ball lifter (2F) + Heat the compressed air with heat and mass and liquid metal gravity Heat production by compressed air + Insert the rotor blade group of the turbine with the same diameter and diameter for each paragraph Various energy storage cycle combined engines with combined bolt assembly turbines.   Makes the turbine blade cross section (4F) 9 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 10 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the four-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the 5-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4E) 14 times the six-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 15 times the 7-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 16 times 8-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 17 times the nine-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 18 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 19 times the temperature of the turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross-section (4E) 20 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature of 21 times the turbine blade cross section (4F) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal to accelerate downward turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 22 times three-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 23 times the four-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4C) 24 times the 5-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times the six-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4E) double the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4F) triple the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) quadruple the 9th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with the 10-stage turbine drive superheated steam injection temperature five times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4C) into a water jet (79 U) of three-stage combustion with the temperature of the turbine drive superheated steam injection temperature multiplied by 6 times the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 7-stage one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade section (4E) into a water jet (79U) of three-stage combustion with 8 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with 9 times the three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4A) 10 times four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times the 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the six-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4F) 15 times the 9-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 16 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 17 times the temperature of the turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets various passenger ships ( 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4C) 18 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 19 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature of 20 times the turbine blade cross section (4E) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + acceleration of liquid metal downward to drive turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 21 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 22 times five-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 23 times the six-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 24 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross-section (4D) 25 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) twice the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) triple the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4A) four times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4B) five times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with the two-stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 7-stage three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with 8 times the four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with 9 times 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79 U) of three-stage combustion with 10 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4B) 11 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the speed of the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) 14 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with atmosphere Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   Make the turbine blade cross section (4A) 16 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 17 times the two-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 18 times 3-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 19 times the four-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 20 times the five-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4F) 21 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 22 times 7-stage turbine drive superheated steam injection temperature make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downwards to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 23 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 24 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   10-stage turbine drive with 25 times the turbine blade cross section (4D) Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + acceleration drive liquid metal downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4E) double the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4F) triple the triple-stage turbine-driven superheated steam injection temperature tripled to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) four times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 5 times the three-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 6 times the four-stage turbine drive superheated steam injection temperature three times combustion water jet temperature close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4D) into a water jet (79U) of three-stage combustion with the 7-stage 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with 8 times the six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with a 7-stage turbine drive superheated steam injection temperature that is nine times that of the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79 U) of three-stage combustion with 10 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with 11 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4C) 12 times 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4D) 13 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4E) 14 times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the two-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4B) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) 18 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 19 times the six-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 20 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 21 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 22 times nine-stage turbine driven superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 23 times the 10-stage turbine drive superheated steam injection temperature Make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 24 times the temperature of the turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 25 times the 1st stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature doubling the turbine blade cross section (4E) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + acceleration driving liquid metal downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4F) triple the three-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) quadruple four-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) five times the five-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) six times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) seven times the 7-stage turbine drive superheated steam injection temperature seven times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with an 8-stage turbine drive superheated steam injection temperature eight times as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with a 9-stage nine-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4A) 10 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4B) 11 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79 U) of three-stage combustion + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4C) into a water jet (79 U) of three-stage combustion with 12 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4D) 13 times the 2-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the three-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times the four-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times the 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 17 times the temperature of the seven-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4C) 18 times the 7-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 with atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross-section (4D) 19 times 8-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature close to the combustion gas injection temperature + make CO2 into water jet (79U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 20 times the speed of superheated steam injection heated by 9 stages of the turbine by 20 times and make it a water jet (79U) of 3 stages combustion close to the combustion gas injection temperature Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 21 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 22 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 atmosphere + various passenger ships water jet ( 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat production + Moving blade group of turbine for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 23 times the single-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 24 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature 25 times the turbine blade cross section (4D) to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade section (4E) to double the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + drive the liquid metal downwards to accelerate the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion driven water jet (79 U) with the turbine blade cross section (4F) tripled to three-stage five-stage turbine drive superheated steam injection temperature tripled + liquid metal accelerated down turbine drive + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4A) quadruple the 6th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) five times the 7-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 6 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) seven times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) eight times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the temperature of the turbine drive superheated steam injection temperature multiplied by 9 times the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade section (4A) into a water jet (79U) of three-stage combustion with 10 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with the 11-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 12 times the 3-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 13 times the four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4E) 14 times the 5-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the six-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 17 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times the speed of the superheated steam injection heated by the nine-stage turbine 18 times that of the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross-section (4D) 19 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) 20 times the temperature of the turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets various passenger ships ( 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4F) 21 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) 22 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 23 times the 3-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 24 times the four-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 25 times the 5-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4E) doubled and six-stage turbine drive superheated steam injection temperature close to combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   7-stage turbine drive with 3 times turbine blade cross-section (4F) Superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + Liquid metal to accelerate downward turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   The turbine blade cross section (4A) is quadrupled to 8 stages of turbine drive superheated steam injection temperature to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downward to drive turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4B) five times the nine-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4C) 6 times the 10-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Configuration and method to accelerate the power increase sphere (2E) to make the turbine blade cross section (4D) a water jet (79U) of three-stage combustion with the temperature of the turbine drive superheated steam injection seven times as high as the combustion gas injection temperature Produce heat and cold with an air path lens and sunlight + Save and maintain liquid metal with an increased sphere lifter (2F) + Heat with compressed air, mass and liquid metal gravity Heat produced by compressed air + Rotor blades of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4E) eight times the temperature of the one-stage turbine driven superheated steam injection temperature three times combustion water jet temperature close to the combustion gas injection temperature (79U) + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4F) a 9-fold two-stage turbine drive superheated steam injection temperature to a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and hold liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine for each paragraph A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4A) a water jet (79U) of three-stage combustion in which the temperature of the three-stage turbine drive superheated steam injection is multiplied by 10 times the combustion gas injection temperature + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4B) a water jet (79U) of three-stage combustion with the superheated steam injection temperature of four times the four-stage turbine driven by 11 times + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Configuration and method of accelerating the power increase sphere (2E) to make the turbine blade cross section (4C) 12 times the five-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4D) 13 times the six-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4E) 14 times the 7-stage turbine drive superheated steam injection temperature by 3 times combustion water jet (79U) close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and hold liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine for each paragraph A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Make the turbine blade cross section (4F) 15 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 16 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 17 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 18 times the temperature of the turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery use with the atmosphere + water cargo jet (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4D) 19 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Two-stage turbine drive superheated steam injection temperature of 20 times the turbine blade section (4E) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 21 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 22 times the four-stage turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 23 times the 5-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 24 times the six-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 25 times the 7-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) double the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) triple the triple-stage 9th-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make 10-stage turbine drive superheated steam injection temperature of 4 times the turbine blade cross section (4A) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 5 times the temperature of the turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4C) six times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) seven times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross section (4E) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 9 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 10 times the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 11 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 13 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 14 times the nine-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make 10-stage turbine drive superheated steam injection temperature 15 times the turbine blade cross-section (4F) close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 16 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) (79U) Drive with a plurality + Increase and store liquid metal with increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Moving blade group of turbine for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Make the turbine blade cross section (4B) 17 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4C) 18 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4D) 19 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4E) 20 times the four-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4F) 21 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4A) 22 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4B) 23 times the 7-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 atmosphere and various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4C) 24 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4D) 25 times the 9-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships A variety of energy storage cycle coalescing engines, such as heat retention turbines, which are driven by a plurality of water jets (79U) + elevated and stored with a rising ball lifter (2F) + heat by compressed air heat and pressure and stored separately .   Make the turbine blade cross section (4E) double the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 for rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Make the turbine blade cross section (4F) triple the speed of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + intake air path length lens and sun Produce heat and cold with light + Increase heat gain with heat retention and increase ball lift device (2F) + Save and store liquid metal with heat increase ball lift device (2F) + Compressed air heat quantity and mass and liquid metal gravity Heat compressed heat with air production + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Makes the turbine blade cross section (4A) four times as high as the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 rapidly recover with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4B) five times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapidly recover with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4C) 6 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and sunlight + temperature increase and increase ball rise device (2F) + increase the drop + increase ball rise device (2F) to save liquid metal + compressed air heat energy and mass and liquid metal gravity to produce compressed air + Various energy conservation cycle combined engines where the rotating blade group of the turbine has the same diameter and approximately the same shape for each stage and the mating bolt assembly turbine.   Makes the turbine blade cross section (4D) seven times four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) eight times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 9 times the six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 10 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with 12 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 13 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4E) 14 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79 U) of three-stage combustion + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with 15 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with the double-stage turbine drive superheated steam injection temperature 16 times as close to the combustion gas injection temperature + horizontal axis (1h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4B) 17 times three-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times the four-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 19 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 20 times the six-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4F) 21 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4A) 22 times the 8-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) 23 times the 9th stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross-section (4C) 24 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 25 times the temperature of the turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets of various ships 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4E) doubled to one-stage turbine drive superheated steam injection temperature doubled + CO2 with the atmosphere for rapid recovery use + various passenger ships with water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4F) to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature quadrupled to 4 times the turbine blade cross section (4A) to make the water jet (79U) of three-stage combustion close to combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4B) five times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) six times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with seven-stage six-stage turbine drive superheated steam injection temperature which makes the turbine blade cross section (4D) seven times higher + Various turbines drive liquid metal downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4E) eight times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 9 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 10 times the speed of the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 12 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with 13 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79 U) of three-stage combustion with the 14-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with 15 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) with three stages of combustion with the 16th stage 4-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4B) 17 times the 5-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4C) 18 times the six-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 19 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) 20 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 21 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a 3-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lift 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 22 times 10-stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4B) 23 times the temperature of the turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4C) 24 times the one-stage turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 25 times the two-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage turbine drive superheated steam injection temperature doubling the turbine blade cross-section (4E) to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4F) tripled and the four-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered with the atmosphere + various passenger ships with water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4A) quadrupled to 5-stage turbine drive superheated steam injection temperature quadrupled + Liquid metal drive down acceleration turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4B) five times as many as the six-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   The turbine blade cross section (4C) is 6 times 7 times the turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + liquid metal to accelerate down the turbine to drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) seven times eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) eight times the 9th stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   A 10-stage turbine driven superheated steam injection temperature of 9 times the turbine blade section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4A) 10 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4B) 11 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 12 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the three-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with the 14-stage four-stage turbine drive superheated steam injection temperature approaching the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79U) of three-stage combustion with 15 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 16 times 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a 17-stage seven-stage turbine-driven superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 18 times 8-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4D) 19 times the nine-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) 20 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 21 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4A) 22 times 1-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the two-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4C) 24 times the 3-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) 25 times the four-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4E) twice the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recover with CO2 atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) tripled and three-stage six-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered and used together with the atmosphere + various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the 7th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) five times the eight-stage turbine drive superheated steam injection temperature to make it a three-stage combustion water jet (79U) close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 6 times the 9-stage turbine drive superheated steam injection temperature Make the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerate the liquid metal downward to drive the liquid metal + Various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   The turbine blade cross section (4D) is seven times the 10-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) 8 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 9 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4A) 10 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 11 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the four-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the 5-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the six-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with 15 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 16 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to alternate rotation direction Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a 17-stage nine-stage turbine driven superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79 U) of three-stage combustion + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 18 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat the compressed air with heat and mass and liquid metal gravity Heat production by compressed air + Insert the rotor blade group of the turbine with the same diameter and diameter for each paragraph Various energy storage cycle combined engines with combined bolt assembly turbines.   Makes the turbine blade cross section (4E) 20 times the 1st stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 21 times 2-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 22 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the four-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times the 5-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross-section (4D) 25 times the six-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4E) doubled to 7-stage turbine drive superheated steam injection temperature doubled + CO2 with atmosphere and rapid recovery use of various passenger ships + water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) triple the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the 9th stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross-section (4B) five times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 6 times the temperature of the turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross section (4D) seven times as high as the one-stage turbine drive superheated steam injection temperature which is seven times + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross-section (4E) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature of 9 times the turbine blade cross section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the four-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4B) 11 times the 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 12 times the six-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4E) 14 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the speed of the 9th stage turbine driven superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4A) 16 times 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4B) into a water jet (79 U) of three-stage combustion with the 17 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4C) into a water jet (79 U) of three-stage combustion with 18 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage 2-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade section (4E) 20 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4F) 21 times the four-stage turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 22 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the six-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times the 7-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4E) double the 9th stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   A 10-stage turbine driven superheated steam injection temperature triples the turbine blade cross-section (4F) to a combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly recovered and used with the atmosphere + various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage water jet (79U) of combustion + + CO2 rapidly with CO2 atmosphere + various passenger ships water jet ( 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat + Turbine blade group of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4B) five times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4C) 6 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature seven times the turbine blade cross section (4D) to make it a combustion gas injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4E) eight times the four-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature close to the three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79 U) with a turbine blade cross section (4F) nine times five times the five-stage turbine drive superheated steam injection temperature brought close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the six-stage turbine drive superheated steam injection temperature to make the water jet (79 U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downwards to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the 7-stage turbine drive superheated steam injection temperature to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4C) 12 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4D) 13 times the speed of the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) 14 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4A) 16 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4B) 17 times the 2-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Make the turbine blade cross section (4C) 18 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage 4-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79 U) of three-stage combustion with 20 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21-stage six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4A) 22 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + increase ball lift 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 23 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 24 times the speed of superheated steam injection heated by 9 stages of 24 stages to the combustion gas injection temperature and makes it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4E) double the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4F) tripled to one-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered and used together with the atmosphere + various passenger ships with water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4A) quadruple the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Three-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4B) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4C) 6 times the four-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) seven times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4E) eight times the six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   The turbine blade cross section (4F) is increased by 9 times, and the 7th stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make a 3 stage combustion water jet (79U) + liquid metal to accelerate downward turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the eight-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the nine-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4C) 12 times the 10-stage turbine drive superheated steam injection temperature Make the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerate the liquid metal downward to drive the liquid metal + Various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4D) 13 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Makes the turbine blade cross section (4E) 14 times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) 15 times the two-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4B) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4C) 18 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage six-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with 20 times seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with the 21-stage 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79U) of three-stage combustion with 22 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4B) 23 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4C) 24 times the temperature of the turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lifting and storing liquid metal + Compressed air heat energy and mass and liquid metal gravity to produce compressed air Production heat + Various moving parts of energy saving cycle combining engine with rotating blade group of turbine with same diameter and same shape for every stage .   Make the turbine blade cross-section (4D) 25 times 1-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4E) twice the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) triple the three-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4A) quadruple four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 with atmosphere + various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4B) five times the five-stage turbine drive superheated steam injection temperature five times to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4C) six times the six-stage turbine drive superheated steam injection temperature to be the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make 7-stage turbine drive superheated steam injection temperature of 7 times the turbine blade cross section (4D) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4E) eight times the eight-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various passenger ships Drive a plurality of jets (79U) + save and raise liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Stages of turbine blades in each stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   A 9-stage turbine drive superheated steam injection temperature of 9 times that of the turbine blade section (4F) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4A) 10 times the 10-stage turbine drive superheated steam injection temperature Make the water jet (79U) of the 3-stage combustion close to the combustion gas injection temperature + Accelerate the liquid metal downward to drive the liquid metal + Various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4D) 13 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate the turbine + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4E) 14 times the three-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross section (4F) 15 times the four-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) 16 times the 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4B) 17 times the temperature of the seven-stage turbine drive superheated steam injection temperature 17 times that of the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4C) 18 times seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Turn the turbine blade cross section (4D) into a water jet (79 U) of three-stage combustion with the 19-stage 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4E) into a water jet (79U) of three-stage combustion with 20 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4F) into a water jet (79 U) of three-stage combustion with 21 times 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat production and heat by compressed air heat and mass and liquid metal gravity + heat transfer of turbine blade group with same diameter almost same shape Various energy storage cycle combined engines with bolt assembly turbines.   Turn the turbine blade cross section (4A) into a water jet (79 U) of three-stage combustion with 22 times the temperature of the turbine drive superheated steam injection close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4B) into a water jet (79U) of three-stage combustion with 23 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make the turbine + raise and store the liquid metal with the augmented ball lifter (2F) + compressed air heat production with compressed air heat and mass and liquid metal gravity Heat production of the air + buckets of turbines of the same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4C) 24 times the two-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Make the turbine blade cross-section (4D) 25 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross-section (4E) twice the four-stage turbine drive superheated steam injection temperature doubled to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4F) triple the five-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Makes the turbine blade cross section (4A) quadruple the 6th stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Compressed air heat quantity and mass and liquid metal gravity Heat production by compressed air + Various types of mating bolt assembly turbine with the same diameter of turbine rotor blade group for each paragraph Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross-section (4B) five times seven-stage turbine driven superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 using the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Makes the turbine blade cross section (4C) 6 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + waters various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4D) seven times the nine-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross-section (4E) eight times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79U) + raise and store liquid metal with an increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + turbine blade group of turbines with equal diameter Various energy storage cycle combined engines with mating bolt assembly turbine as almost same shape.   Make the turbine blade cross section (4F) 9 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets of various ships 79U) Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity to produce compressed air Production heat production + Moving blade group of turbine for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 10 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4B) 11 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downwards to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature 12 times the turbine blade cross section (4C) to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Drive the turbine blade cross section (4D) 13 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + drive the liquid metal downward to accelerate turbine drive + various ships Drive the fluid with multiple water jets (79U) + Lift and store the liquid metal with the augmented ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Turbine buckets stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4E) 14 times five times the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4F) 15 times the temperature of the combustion gas injection temperature of the 6th stage turbine drive superheated steam injection temperature 15 times + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4A) a water jet (79U) of three-stage combustion with the temperature of the superheated steam injected at seven times the seven-stage turbine driven by 17 times + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4B) 17 times the 8-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4C) into a water jet (79U) of three-stage combustion with the 18-stage nine-stage turbine drive superheated steam injection temperature approaching 18 times the combustion gas injection temperature + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4D) a water jet (79U) of three-stage combustion with the temperature of the superheated steam injected at 10 times of the 10th turbine driven 19 times + Heat and cold heat production with suction air path length lens and sunlight + Save and hold liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine for each paragraph A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4E) 20 times the temperature of the turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature + the power increase sphere (2E) Produce heat and cold with an air path lens and sunlight + Save and maintain liquid metal with an increased sphere lifter (2F) + Heat with compressed air, mass and liquid metal gravity Heat produced by compressed air + Rotor blades of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4F) into a 21-stage one-stage turbine drive superheated steam injection temperature and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4A) a 22 times two-stage turbine drive superheated steam injection temperature and a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4B) 23 times the 3-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermal and cold heat production with suction air path length lens and sunlight + Storage and storage of liquid metal with increased ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4C) 24 times the four-stage turbine drive superheated steam injection temperature which is 24 times that of the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and hold liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass with liquid metal gravity Compressed air production heat production + Turbine for each paragraph A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Make the turbine blade cross section (4D) 25 times the 5-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4E) twice as high as the six-stage turbine drive superheated steam injection temperature doubled + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   7-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4F) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) quadruple the 8-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 5 times the 9-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air production Heat production + Rotor blade group of turbine for each paragraph Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make 10-stage turbine drive superheated steam injection temperature of 6 times the turbine blade cross section (4C) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 7 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + watercraft various cargo ships (79U) Drive with a plurality + Increase and store liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity Compressed air production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4E) eight times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 9 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 10 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 11 times the four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 12 times the five-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4D) 13 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4E) 14 times the 7-stage turbine drive superheated steam injection temperature 3 times combustion water jet temperature close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4F) 15 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4A) 16 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4B) 17 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4C) 18 times the temperature of the turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal to drive the alternate rotation heat retention turbine + various cargoes Drives ships with multiple water jets (79U) + Ups and stores liquid metal with increased ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity for compressed air production Heat production + Turbine blade group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4D) 19 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the turbine blade cross-section (4E) to 20 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Drive the horizontal axis (1h) rotation direction alternating turbine + Drive various cargo ships with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity for compressed air production Heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Drive the turbine blade cross section (4F) to 21 times three-stage turbine drive Superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Horizontal axis (1h) rotational direction alternating turbine drive + Drive various cargo ships with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity for compressed air production Heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Drive the turbine blade cross section (4A) to 22 times four-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Horizontal axis (1h) rotational direction alternating turbine drive + Drive various cargo ships with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity for compressed air production Heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4B) 23 times the 5-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Drive by turbine + Drive various cargo ships by water jet (79U) multiple + Lift and store liquid metal by increasing ball lifter (2F) + Compressed air heat production by compressed air heat quantity and mass and liquid metal gravity + Various energy storage cycle combined engines, where the rotating blade group of the turbine has the same diameter and diameter, and has the same diameter.   Drive the turbine blade cross section (4C) 24 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + horizontal axis (1h) rotational direction alternating turbine drive + Drive various cargo ships with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity for compressed air production Heat production + Turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4D) 25 times the 7-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Save the liquid metal with a rising ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity. Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Makes the turbine blade cross section (4E) 2 to 26 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4F) 2 to 26 times 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Makes the turbine blade cross section (4A) 2 to 26 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4B) 2 to 26 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drive multiple liquid jets with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Heat quantity of compressed air and mass and liquid metal gravity for compressed air manufacturing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Makes the turbine blade cross section (4C) 2 to 26 times 1-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with an increase ball lifter (2F) + Compressed air heat quantity and mass and liquid metal gravity to produce compressed air Production heat production + Rotor of turbine in each stage Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Two-stage turbine drive superheated steam injection temperature of 2 to 26 times the turbine blade cross section (4D) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drive various kinds of water jets (79U) + Increase and store liquid metal with a rising ball lifter (2F) + Various energy storage cycles as heat retention turbines accelerated by pressure stored in compressed air heat and mass separately Coalition agency.   Three-stage turbine drive superheated steam injection temperature of 2 to 26 times that of turbine blade section (4E) is made close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive various kinds of water jets (79U) + Increase and store liquid metal with a rising ball lifter (2F) + Various energy storage cycles as heat retention turbines accelerated by pressure stored in compressed air heat and mass separately Coalition agency.   Makes the turbine blade cross section (4F) 2 to 26 times 4-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drive various kinds of water jets (79U) + Increase and store liquid metal with a rising ball lifter (2F) + Various energy storage cycles as heat retention turbines accelerated by pressure stored in compressed air heat and mass separately Coalition agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Various energy storage cycle combined engines, such as heat retention turbines, which are driven by acceleration and pressure and the like that increase and store liquid metal by means of an increase ball lifter (2F) + heat and compressed air mass and divided separately.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Various energy storage cycle combined engines, such as heat retention turbines, which are driven by acceleration and pressure and the like that increase and store liquid metal by means of an increase ball lifter (2F) + heat and compressed air mass and divided separately.   7-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens and solar light Thermal cooling production + heat retention increase Increase the drop with the ball lifter (2F) + save and store the liquid metal with the ball lifter (2F) + compressed air heat quantity and mass with the liquid metal gravity Heat production of compressed air + turbine blade group in every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Eight-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Thermal air circulation with intake air path length lens and sunlight + Heat retention increase Increase the drop with the ball lifter (2F) + save and store the liquid metal with the ball lifter (2F) + compressed air heat quantity and mass with the liquid metal gravity Heat production of compressed air + turbine blade group in every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   9-stage turbine drive Superheated steam injection temperature to the combustion gas injection temperature to make water jet (79U) of 3 stage combustion + CO2 rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight for thermal cooling production + heat retention increase Increase the drop with the ball lifter (2F) + save and store the liquid metal with the ball lifter (2F) + compressed air heat quantity and mass with the liquid metal gravity Heat production of compressed air + turbine blade group in every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   10-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens and solar light Thermal cooling production + heat retention increase Increase the drop with the ball lifter (2F) + save and store the liquid metal with the ball lifter (2F) + compressed air heat quantity and mass with the liquid metal gravity Heat production of compressed air + turbine blade group in every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop by the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + compressed air heat quantity and mass and liquid metal gravity by compressed air manufacturing heat production + moving blade group of turbine for every paragraph Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + Accelerate liquid metal Drive alternate rotation heat retention turbine Drive liquid metal with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Ascend and store air + heat and mass of compressed air and heat production of compressed air with liquid metal gravity + various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for every paragraph .   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) is equipped with a square type square turbine outer box right angle to make rotation direction alternate heating turbine liquid Accelerating metal downwards + Uplifting and storing liquid metal with increase ball raising device (2F) + Compressed air heat quantity and mass and liquid metal gravity compressed air Production heat production + Turbine blade group of turbine approximately the same diameter Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Heat up and store liquid metal with an increase ball lifter (2F) + Heat by compressed air heat and mass and liquid metal gravity Heat produced by compressed air + Turbine blade group with same diameter and same shape for each stage Various energy conservation cycle coalition agencies.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Heat storage of liquid metal + Heat production of compressed air with heat and mass of compressed air Heat production of compressed air + Various types of energy storage cycle combined engine with rotating blade group of turbine with same diameter and almost same shape for each stage.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat and store liquid metal with device (2F) + Heat production of compressed air with heat and mass of compressed air and heat production of compressed air + Various energy of the rotating blade group of turbine with the same diameter and the same diameter for each stage Preservation cycle union agency.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   9-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Turbine driven superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1h) driven by rotation direction alternate turbine + + increased ball lifter (2F) Lift and store the liquid metal + Compressed air heat and mass and liquid metal gravity to produce compressed air Production heat + Various stages of energy preservation with the buckets of the turbine with the same diameter and the same shape for each stage Cycle coalescing agency.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat and store liquid metal with device (2F) + Heat production of compressed air with heat and mass of compressed air and heat production of compressed air + Various energy of the rotating blade group of turbine with the same diameter and the same diameter for each stage Preservation cycle union agency.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + Horizontal axis (1h) Rotational direction alternate turbine drive + Rising liquid metal with increasing ball lifter (2F) A variety of energy storage cycle coalescing engines, which store the heat produced by compressed air by heat and mass and liquid metal gravity, and produce heat of the compressed air of the turbine with the same diameter of the same diameter in each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Two-stage turbine drive The superheated steam injection temperature is set to a water jet (79 U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Ascend and store air + heat and mass of compressed air and heat production of compressed air with liquid metal gravity + various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for every paragraph .   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Turbine driven superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Compressed air A variety of energy storage cycle coalescing engines that use the amount of heat, mass, and liquid metal gravity to produce compressed air and produce turbine blades + turbine blades with the same diameter for each section.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Uplift and store liquid metal with increasing ball lifter (2F) + Acceleration with superheated steam velocity and combustion gas velocity + Various energy conservation with mating blade assembly turbine turbines with the same diameter and same shape for each stage Cycle coalescing agency.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Uplift and store liquid metal with increasing ball lifter (2F) + Acceleration with superheated steam velocity and combustion gas velocity + Various energy conservation with mating blade assembly turbine turbines with the same diameter and same shape for each stage Cycle coalescing agency.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Uplift and store liquid metal with increasing ball lifter (2F) + Acceleration with superheated steam velocity and combustion gas velocity + Various energy conservation with mating blade assembly turbine turbines with the same diameter and same shape for each stage Cycle coalescing agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Heat up and store liquid metal with an increase ball lifter (2F) + Heat by compressed air heat and mass and liquid metal gravity Heat produced by compressed air + Turbine blade group with same diameter and same shape for each stage Various energy conservation cycle coalition agencies.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Horizontal axis (1h) Rotational direction alternating turbine drive + Liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Four-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use the same size of the moving blade group of the turbine for each paragraph as the same diameter and the same diameter for each paragraph with the amount of compressed air heat, mass and liquid metal gravity.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A) Heat and store liquid metal + Compressed air heat and mass and heat produced by compressed air with liquid metal gravity + Various energy of the rotating blade group of the turbine with the same diameter and the same diameter for every paragraph Preservation cycle union agency.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Heat storage of liquid metal + Heat production of compressed air with heat and mass of compressed air Heat production of compressed air + Various types of energy storage cycle combined engine with rotating blade group of turbine with same diameter and almost same shape for each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + accelerate with superheated steam velocity and combustion gas velocity + various energy conservation cycle combination with the rotor blade group of the turbine as the same diameter approximately the same shape every stage organ.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Six-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Lift and store liquid metal + Compressed air heat quantity and mass and compressed air production heat production by mass and liquid metal gravity + Various energy preservation cycles with the rotor blade group of the turbine as the same diameter approximately the same shape for every stage Coalition agency.   7-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Compressed air heat energy and mass and liquid metal gravity Heat produced by compressed air + Various energy storage cycle coalescence engines with rotating blades of the turbine as the same diameter approximately the same shape for each stage of the turbine.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use the same size of the moving blade group of the turbine for each paragraph as the same diameter and the same diameter for each paragraph with the amount of compressed air heat, mass and liquid metal gravity.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Heat storage of liquid metal + Heat production of compressed air with heat and mass of compressed air Heat production of compressed air + Various types of energy storage cycle combined engine with rotating blade group of turbine with same diameter and almost same shape for each stage.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat and store liquid metal with device (2F) + Heat production of compressed air with heat and mass of compressed air and heat production of compressed air + Various energy of the rotating blade group of turbine with the same diameter and the same diameter for each stage Preservation cycle union agency.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Uplift and store liquid metal with increasing ball lifter (2F) + Acceleration with superheated steam velocity and combustion gas velocity + Various energy conservation with mating blade assembly turbine turbines with the same diameter and same shape for each stage Cycle coalescing agency.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Turbine driven superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Compressed air A variety of energy storage cycle coalescing engines that use the amount of heat, mass, and liquid metal gravity to produce compressed air and produce turbine blades + turbine blades with the same diameter for each section.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Turbine driven superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Compressed air A variety of energy storage cycle coalescing engines that use the amount of heat, mass, and liquid metal gravity to produce compressed air and produce turbine blades + turbine blades with the same diameter for each section.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat production of compressed air by heat and mass of compressed air and gravity of liquid metal + Heat production of compressed air + Fitting of bolt assembly with same size of rotor blades of turbine Various energy storage cycle combined engines with turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + Horizontal axis (1h) Rotational direction alternate turbine drive + Rising liquid metal with increasing ball lifter (2F) A variety of energy storage cycle coalescing engines, which store the heat produced by compressed air by heat and mass and liquid metal gravity, and produce heat of the compressed air of the turbine with the same diameter of the same diameter in each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use the same size of the moving blade group of the turbine for each paragraph as the same diameter and the same diameter for each paragraph with the amount of compressed air heat, mass and liquid metal gravity.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Heat and store the liquid metal in) + Heat production of compressed air by heat and mass and liquid metal gravity Heat production of compressed air + Various energy storage cycle combination with rotating blade group of turbine as the same diameter almost same shape for every stage organ.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Turbine driven superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Compressed air A variety of energy storage cycle coalescing engines that use the amount of heat, mass, and liquid metal gravity to produce compressed air and produce turbine blades + turbine blades with the same diameter for each section.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use compressed air heat and mass and liquid metal gravity to produce compressed air and produce manufacturing heat + turbine blades with the same diameter and diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase The liquid lifter (2F) lifts and stores liquid metal + Compressed air heat quantity and mass and liquid metal gravity manufactures compressed air Production heat + Turbine The blade group of the turbine has the same diameter and is almost the same shape, and is used as a mating bolt assembly turbine Various energy conservation cycle union engine.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Four-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   5-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + configuration and method to accelerate power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   7-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Eight-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   9-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Thermal and cold heat manufacturing with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter of each section and fitting bolt assembly Turbine And various energy conservation cycle coalition agencies.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) + intake air path length lens and sunlight Heat and cold heat manufacture + Increase and store liquid metal with increase ball raising device (2F) + Heat and cold heat manufacture with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is recovered rapidly with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + Various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + accelerate liquid metal drive alternating rotation heat retention turbine + water jet various cargo ships (79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + various cargo ships with multiple water jets (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter of each section And various energy conservation cycle coalition agencies.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various cargo ships water jet (79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + horizontal axis (1h) rotational direction alternate turbine drive + waterjet (79U) various cargo ships Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + + horizontal axis (1 h) to drive by rotating direction alternate turbine + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + waterjet (79U) various cargo ships Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature + Makes water jet (79 U) of 3-stage combustion + Quickly use CO2 together with the atmosphere + Drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine blade group of same diameter almost same shape for every stage Various energy preservation as a mating bolt assembly turbine Cycle coalescing agency.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is recovered rapidly with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + Various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature + Makes water jet (79 U) of 3-stage combustion + Quickly use CO2 together with the atmosphere + Drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Make the rotor blade group of the turbine approximately the same diameter for every paragraph Fit bolt assembled Turbine And various energy conservation cycle coalition agencies.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Various energy storage cycle coalescing engines, in which the liquid metal is raised and stored by the increase ball lifter (2F) + the turbine blade group of the turbine has the same diameter and shape with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Acceleration of liquid metal Drive alternate rotation heat retention turbine + Various cargo ships with water jet (79U) Various energy storage cycle coalescing engines that drive and store liquid metal by means of an increase ball lifter (2F) + turbine blade group of the same diameter for each paragraph with the same diameter and fit bolt assembly turbine.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Various energy storage cycle coalescing engines, in which the liquid metal is raised and stored by the increase ball lifter (2F) + the turbine blade group of the turbine has the same diameter and shape with the same diameter for each stage.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + horizontal axis (1h) rotational direction alternate turbine drive + waterjet (79U) various cargo ships A variety of energy storage cycle coalescing engines, in which a plurality of driven + lifting ball lifters (2F) lift and store liquid metal + a turbine bucket group having the same diameter and substantially the same shape for each stage.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotational direction alternating turbine drive + waterjet (79U) various cargo ships A variety of energy storage cycle coalescing engines, in which a plurality of driven + lifting ball lifters (2F) lift and store liquid metal + a turbine bucket group having the same diameter and substantially the same shape for each stage.   Four-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + thermal path with intake air path lens and sunlight Cold heat production + Heat retention and increase ball lift device (2F) + Increase and storage of liquid metal with increase ball lift device (2F) + Intake air path length lens and heat and cold heat production with sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) driven by rotation direction alternate turbine + positive air path length lens Heat and cold heat production with heat and sunlight + Drop increase with heat retention increase ball raising device (2F) + Rise and store liquid metal with rise ball raising device (2 F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Six-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + thermal path with intake air path lens and sunlight Cold heat production + Heat retention and increase ball lift device (2F) + Increase and storage of liquid metal with increase ball lift device (2F) + Intake air path length lens and heat and cold heat production with sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   7-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens and solar light Thermal cooling production + heat retention increase Increase the drop by ball lift device (2F) + raise and store liquid metal by increase ball lift device (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Eight-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Thermal air circulation with intake air path length lens and sunlight + Heat retention increase Increase the drop by ball lifter (2F) + raise and store liquid metal by increase ball lifter (2F) + warm and cool heat with suction air path length lens and sunlight + moving blade group of turbine every paragraph Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + Accelerate liquid metal Drive alternate rotation heat retention turbine + Multiple water jets (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships waterjet (79U) plural Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships waterjet (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships with water jet (79U) multiple Drive by + Increase and store liquid metal with increase ball lifter (2F) + Heat and cool heat with suction air path length lens and sunlight + Insert rotor blade group of turbine as same size and diameter for each paragraph Various energy storage cycle combined engines with combined bolt assembly turbines.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + accelerate liquid metal Drive alternating rotation heat retention turbine + liquid ball with increasing ball lifter (2F) Rise and save + Intake air path length lens and heat and cold heat with sun light + Various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for each paragraph.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships with water jet (79U) multiple Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships like water jet (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   9-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a 3-stage combustion water jet (79 U) + horizontal axis (1 h) driven by rotation direction alternate turbine + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Thermally cools manufactured with suction air path length lens and sunlight + Moving blade group of turbine for each paragraph Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines, in which liquid metals are raised and stored + intake air path length lens and heat and cold are manufactured with sunlight + turbine rotor blade group having the same diameter and shape with the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + accelerate liquid metal Drive alternate rotation heat retention turbine + increase ball lifter (2F) liquid metal Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships like water jet (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   9-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   10-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1 h) and driven by rotation direction alternate turbine + watercraft various passenger ships 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   One-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive by + Increase and store liquid metal with increase ball lifter (2F) + Heat and cool heat with suction air path length lens and sunlight + Insert rotor blade group of turbine as same size and diameter for each paragraph Various energy storage cycle combined engines with combined bolt assembly turbines.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal power and cold heat produced by using a path length lens and sunlight.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + accelerate liquid metal Drive alternating rotation heat retention turbine + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Rise and save + Intake air path length lens and heat and cold heat with sun light + Various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for each paragraph.   Turbine drive Superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + various passenger vessels driven by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   One-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive horizontal direction turbine with horizontal axis (1 h) + Water various passenger ships like water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships waterjet (79U) plural Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool energy by suction air path length lens and sunlight + Assembling rotor blade group of turbine for each paragraph with same diameter and same shape for every paragraph Various energy conservation cycle coalition agencies.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat and cold heat with suction air path length lens and sunlight + Insert bolt of turbine blade group with same diameter and same shape for each paragraph Various energy storage cycle combined engines with an assembled turbine.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + accelerate liquid metal Drive alternating rotation heat retention turbine + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Horizontal axis (1h) Rotational direction alternating turbine drive + Liquid ball with increasing ball lifter (2F) Rise and save + Intake air path length lens and heat and cold heat with sun light + Various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for each paragraph.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships waterjet (79U) plural Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1 h) to drive by rotation direction alternate turbine + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various passenger ships waterjet (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool energy by suction air path length lens and sunlight + Assembling rotor blade group of turbine for each paragraph with same diameter and same shape for every paragraph Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79 U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines, in which liquid metals are raised and stored + intake air path length lens and heat and cold are manufactured with sunlight + turbine rotor blade group having the same diameter and shape with the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Accelerate liquid metal Drive alternating rotation heat retention turbine + Increase ball lifter (2F) liquid metal Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Four-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Rise and save + Intake air path length lens and heat and cold heat with sun light + Various energy storage cycle coalescing engines with rotating blade group of turbine with same diameter and same shape for each paragraph.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + + horizontal axis (1 h) driven by rotation direction alternate turbine + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool energy by suction air path length lens and sunlight + Assembling rotor blade group of turbine for each paragraph with same diameter and same shape for every paragraph Various energy conservation cycle coalition agencies.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines, in which liquid metals are raised and stored + intake air path length lens and heat and cold are manufactured with sunlight + turbine rotor blade group having the same diameter and shape with the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Six-stage turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   7-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Eight-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Lift and store liquid metal + Produce heat and cold with suction air path length lens and sunlight + Various energy preservation with the moving blade group of the turbine having the same diameter and the same shape for every paragraph Cycle coalescing agency.   9-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various watercraft (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter and same shape for each section Various energy storage cycle combined engines with turbines.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + Thermal and cold energy is produced with suction air path length lens and sunlight + The bucket group of turbine is the same diameter with the same diameter for every stage Various energy preservation cycles Coalition agency.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool energy by suction air path length lens and sunlight + Assembling rotor blade group of turbine for each paragraph with same diameter and same shape for every paragraph Various energy conservation cycle coalition agencies.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Turbine driven superheated steam injection temperature is made close to combustion gas injection temperature. Water jet (79U) of three-stage combustion + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal by increase ball lifter (2F) + Intake air A variety of energy storage cycle coalescing engines, in which the rotor blade group of the turbine is made to have the same diameter and shape with the same diameter for each section, and which produces thermal cooling using road length lenses and sunlight.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine has the same diameter and shape with the same diameter for each stage, with thermal intake using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   7-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   9-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   10-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) driven by rotation direction alternating turbine + + 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + Horizontal axis (1h) Rotational direction alternate turbine drive + Rising liquid metal with increasing ball lifter (2F) Save + Intake air path length lens and heat and cold by using sun light + Various energy storage cycle combined engines with rotating blade group of turbine with same diameter approximately same shape for each paragraph as fitting bolt assembly turbine.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool energy by suction air path length lens and sunlight + Assembling rotor blade group of turbine for each paragraph with same diameter and same shape for every paragraph Various energy conservation cycle coalition agencies.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use A variety of energy storage cycle coalescing engines, in which the liquid metal is raised and stored + intake air path length lens and heat and cold are manufactured with sun light + turbine rotor blade group having the same diameter and the same diameter for each stage.   One-stage turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO2 with the atmosphere Lift and store liquid metal in (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage organ.   Two-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO2 with the atmosphere Lift and store liquid metal in (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage organ.   Three-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO2 with the atmosphere Lift and store liquid metal in (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage organ.   Four-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO2 with the atmosphere Lift and store liquid metal in (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage organ.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + Acceleration of liquid metal Drive alternating rotation heat retention turbine + Liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use a suction air path length lens and solar light to produce heat and cold using + + automatically machineable turbine blade groups of approximately the same diameter and fit bolt assembly turbine that enables fully automatic processing.   9-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Ascend and save + Thermal and cold energy production with suction air path length lens and solar light + Various energy preservation cycle combination that makes the bucket group of turbine that can be fully automatic processing the same diameter and is almost the same shape every stage organ.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + Horizontal axis (1h) Rotational direction alternate turbine drive + Rising liquid metal with increasing ball lifter (2F) Various energy storage cycle coalescing engines that combine + save the suction air path length lens and heat and cool heat with sunlight and make the moving blade group of the turbine the same diameter and diameter with the same diameter for each stage.   One-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Horizontal axis (1h) Rotational direction alternating turbine drive + Liquid ball with increasing ball lifter (2F) Uplift and save + Thermal and cold energy production with suction air path length lens and sunlight + Fully automatic processable Various energy storage cycle coalescing engines with the turbine blade group having the same diameter and substantially the same shape for every stage .   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of a turbine that can be thermally and coldly manufactured with intake air path length lenses and sunlight and that can be fully automatically processed has the same diameter and approximately the same diameter for each stage.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + Various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Lift and store liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of turbine with same diameter and almost same shape Various energy storage cycle combined engines with an assembled turbine.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Fit the rotor blade group of a turbine that can be fully automatically processed with the same diameter and shape Various energy storage cycle combined engines with bolt assembly turbines.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature + Makes water jet (79 U) of 3-stage combustion + Quickly use CO2 together with the atmosphere + Drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine blade group of same diameter almost same shape for every stage Various energy preservation as a mating bolt assembly turbine Cycle coalescing agency.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is recovered rapidly with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + Various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + accelerate liquid metal drive alternating rotation heat retention turbine + water jet various cargo ships (79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + various cargo ships with multiple water jets (79U) Drive + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacturing with sunlight + Rotor blade group of turbine with same diameter of each section And various energy conservation cycle coalition agencies.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + various cargo ships water jet (79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine with same diameter and same shape Various energy storage cycle combined engines with an assembled turbine.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + horizontal axis (1h) rotational direction alternate turbine drive + waterjet (79U) various cargo ships Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processable bucket blade of turbine with almost same diameter for every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + + horizontal axis (1 h) to drive by rotating direction alternate turbine + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + waterjet (79U) various cargo ships Drive with multiple + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processable bucket blade of turbine with almost same diameter for every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of turbine with same diameter and almost same shape Various energy storage cycle combined engines with an assembled turbine.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of turbine with same diameter and almost same shape Various energy storage cycle combined engines with an assembled turbine.   7-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79 U) of 3 stage combustion + CO2 rapidly recover and use together with the atmosphere + drive various cargo ships with multiple water jets (79 U) + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Fit the rotor blade group of a turbine that can be fully automatically processed with the same diameter and shape Various energy storage cycle combined engines with bolt assembly turbines.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Fit the rotor blade group of a turbine that can be fully automatically processed with the same diameter and shape Various energy storage cycle combined engines with bolt assembly turbines.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature + Makes water jet (79 U) of 3-stage combustion + Quickly use CO2 together with the atmosphere + Drive various cargo ships with multiple water jets (79 U) + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Fit the rotor blade group of a turbine that can be fully automatically processed with the same diameter and shape Various energy storage cycle combined engines with bolt assembly turbines.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Fit the rotor blade group of a turbine that can be fully automatically processed with the same diameter and shape Various energy storage cycle combined engines with bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + Intake air path length lens and heat and cold manufacturing with sun light + Turbine blade group capable of fully automatic processing with the same diameter of each section and fitting bolt assembly Various energy storage cycle combined engines with turbines.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover and use together with the atmosphere + Drive various cargo ships with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Two-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is recovered rapidly with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Four-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 is used together with the atmosphere for rapid recovery use + Various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Five-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature. Water jet (79U) of three-stage combustion + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sun light + Various types of turbine blades with the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Thermal air-cooling production + Thermal insulation increase with intake air path length lens and sunlight Increase the drop by ball lift device (2F) + raise and store liquid metal by increase ball lift device (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   7-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens and solar light Thermal cooling production + heat retention increase Increase the drop by ball lift device (2F) + raise and store liquid metal by increase ball lift device (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Eight-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Thermal air circulation with intake air path length lens and sunlight + Heat retention increase Increase the drop by ball lift device (2F) + raise and store liquid metal by increase ball lift device (2F) + Intake air path length lens and heat and cold manufacture with sunlight + Rotor blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   9-stage turbine drive Superheated steam injection temperature to the combustion gas injection temperature to make water jet (79U) of 3 stage combustion + CO2 rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight for thermal cooling production + heat retention increase Increase the drop with a ball lifter (2F) + raise and store the liquid metal with a ball lifter (2F) + heat and cool heat with an intake air path length lens and sunlight + fully automatic processable blade group of the turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   10-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens and solar light Thermal cooling production + heat retention increase Ball lift device (2F) Increases the drop + Increases and stores the liquid metal with the ball lifter (2F) + Intake air path length lens and heat and cold energy production with sunlight + Rotor blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal Drive the alternate rotation heat retention turbine + raise the liquid metal with increasing ball lifter (2F) Various energy storage cycle coalescing engines that combine + save the suction air path length lens and heat and cool heat with sunlight and make the moving blade group of the turbine the same diameter and diameter with the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Horizontal axis (1h) Rotational direction alternating turbine drive + Liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Thermal and cold energy production with suction air path length lens and sunlight + Fully automatic processable Various energy storage cycle coalescing engines with the turbine blade group having the same diameter and substantially the same shape for every stage .   Four-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Ascend and save + Thermal and cold energy production with suction air path length lens and solar light + Various energy preservation cycle combination that makes the bucket group of turbine that can be fully automatic processing the same diameter and is almost the same shape every stage organ.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) to be rotation direction alternate turbine + power increase sphere (2E) Accelerating as small diameter + Intake air path length lens and heat and cool manufacturing with sunlight + Turbine Various blades for assembling blades with the same diameter and the same diameter for each stage.   Six-stage turbine drive Superheated steam injection temperature to be the water jet (79 U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) to be rotation direction alternate turbine + power increase sphere (2E) Accelerating with a small diameter + Thermal / cold energy production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter almost same shape every stage Various energy preservation cycle combination organ.   7-stage turbine drive Superheated steam injection temperature is made to be a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) to be rotation direction alternate turbine + power increase sphere (2E) Accelerating with a small diameter + Thermal / cold energy production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter almost same shape every stage Various energy preservation cycle combination organ.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + power increase ball (2E) Accelerating with a small diameter + Thermal / cold energy production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter almost same shape every stage Various energy preservation cycle combination organ.   9-stage turbine drive Superheated steam injection temperature is made to be a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) to be rotation direction alternate turbine + power increase sphere (2E) Accelerating with a small diameter + Thermal / cold energy production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter almost same shape every stage Various energy preservation cycle combination organ.   10-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Power increase ball (2E) make small diameter for acceleration turbine drive + suction A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is manufactured with thermal path length lenses and sunlight and thermal cold energy + with the same size of the same diameter of each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + intake air path A variety of energy storage cycle coalescing engines that use a long lens and solar light to produce heat and cold + create a moving blade group of a turbine with the same diameter and approximately the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Power increase ball (2E) make small diameter for acceleration turbine drive + suction A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is manufactured with thermal path length lenses and sunlight and thermal cold energy + with the same size of the same diameter of each stage.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Power increase ball (2E) small diameter for accelerating turbine drive + suction A variety of energy storage cycle coalescing engines that use thermal path length lenses and solar light for thermal / cold heat production + fully automatic processing so that the moving blade group of the turbine has the same diameter and shape with the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapidly recover with CO2 atmosphere + Use the power increase ball (2E) small diameter to drive the acceleration turbine + Suction A variety of energy storage cycle coalescing engines, in which the rotating blade group of a turbine that can be thermally and cold-heated with an air path length lens and sunlight and that can be fully automatically processed has the same diameter and approximately the same diameter.   Four-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Five-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Six-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool with a suction air path length lens and sunlight + Fully automatic processing Capable of assembling buckets with the same diameter of turbine rotor blade group as the same diameter. Various energy storage cycle combined engines with turbines.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store liquid metal with ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine blade group capable of fully automatic processing with the same diameter approximately the same diameter for every stage Various energy storage cycle combined engines with an assembled turbine.   9-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Uplift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of coated white turbine with same diameter and same shape for every paragraph Various energy storage cycle combined engines with turbines.   10-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of 3 stage combustion + accelerate liquid metal to drive down turbine + drive various ships by multiple water jets (79U) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + Thermal and cold heat production with suction air path length lens and sunlight + Rotatable blade group of fully automatable turbine with the same diameter and almost same shape for every paragraph Various energy storage cycle combined engines with an assembled turbine.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Uplift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of double inversion turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Four-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Five-stage turbine drive The superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Six-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make a water jet (79 U) of three-stage combustion + horizontal axis (1 h) to make a rotation direction alternate heat retention turbine and tantalum alloy balls downward Accelerate drive + Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic machining possible bucket blade of turbine with same size and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Seven-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79 U) of three-stage combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F 2.) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced by sunlight + Molybdenum steel ball is accelerated and driven by double inversion turbine blade group of the same diameter almost same shape for each mating bolt assembly Various energy storage cycle combined engines with turbines.   9-stage turbine drive Superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F ) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced by sunlight + Liquid tin is accelerated and driven The rotor blade group of counter-rotating turbine has the same diameter and diameter for each paragraph and is fitted bolt assembly turbine And various energy conservation cycle coalition agencies.   10 stages of turbine drive superheated steam injection temperature to water jet (79U) of 3 stages combustion close to combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + Thermal / cold energy production with suction air path length lens and sunlight + Fully automatic processing Various energy storage cycles with the same size of the rotor blade group of the turbine as the same diameter approximately with the same shape Coalition agency.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F ) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + Mercury accelerated drive and drive rotating blade group of counter rotating turbine with equal diameter and same shape for each stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + Various energy storage cycle coalescing engines that use the suction air path length lens and solar light to produce heat and cold + heat the coated silver spheres and drive the rotating blade group of the counter-rotating turbine with the same diameter for each section .   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycles combined into a bolt assembly turbine with the same size of the rotor blade group of the counter-rotating turbine that drives the liquid cadmium alloy by heat and cold heat production with suction air path length lens and sunlight + accelerated drive of liquid cadmium alloy organ.   Four-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal by increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use a suction air path length lens and solar light to produce heat and cold using + + automatically machineable turbine blade groups of approximately the same diameter and fit bolt assembly turbine that enables fully automatic processing.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of a turbine that can be thermally and coldly manufactured with intake air path length lenses and sunlight and that can be fully automatically processed has the same diameter and approximately the same diameter for each stage.   Seven-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various passenger ships are driven by multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool with a suction air path length lens and sunlight + Fully automatic processing Capable of assembling buckets with the same diameter of turbine rotor blade group as the same diameter. Various energy storage cycle combined engines with turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) lifts and stores liquid metal + intake air path length lens and heat and cold manufacture with sunlight + moving blade group of turbine that can be fully automatic processed with the same diameter and the same diameter for each stage And various energy conservation cycle coalition agencies.   One-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + drive liquid metal downward to accelerate turbine drive + drive various ships by multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Three-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Uplift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of double inversion turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Uplift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of double inversion turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Uplift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of double inversion turbine with same diameter and same shape for every stage Various energy storage cycle combined engines with an assembled turbine.   Six-stage turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternating turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   7-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Eight-stage turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Nine-stage turbine drive The superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1 h) 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Ascend and save + Thermal and cold energy production with suction air path length lens and solar light + Various energy preservation cycle combination that makes the bucket group of turbine that can be fully automatic processing the same diameter and is almost the same shape every stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Fully automatic machined turbine blade group with same diameter and same shape for every stage Various energy storage cycles with mating bolt assembly turbine Coalition agency.   One-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Two-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1h) + increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Five-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Six-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   7-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of the turbine is of the same diameter and substantially the same diameter in each stage, and which produces thermal cooling using an intake air path length lens and sunlight.   Eight-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines that use a suction air path length lens and solar light to produce heat and cold using + + automatically machineable turbine blade groups of approximately the same diameter and fit bolt assembly turbine that enables fully automatic processing.   9-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with atmosphere + Increase and store liquid metal with increase ball lifter (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of a turbine that can be thermally and coldly manufactured with intake air path length lenses and sunlight and that can be fully automatically processed has the same diameter and approximately the same diameter for each stage.   10-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of 3 stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + Thermal and cold energy is produced with suction air path length lens and sunlight + The bucket group of turbine is the same diameter with the same diameter for every stage Various energy preservation cycles Coalition agency.   One-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermal / cold energy production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Two-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store the liquid metal with a ball lifter (2F) + Thermally cool with a suction air path length lens and sunlight + Fully automatic processing Capable of assembling buckets with the same diameter of turbine rotor blade group as the same diameter. Various energy storage cycle combined engines with turbines.   Three-stage turbine drive Superheated steam injection temperature close to the combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + Drive various passenger ships with multiple water jets (79U) + increase Lift and store liquid metal with ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine blade group capable of fully automatic processing with the same diameter approximately the same diameter for every stage Various energy storage cycle combined engines with an assembled turbine.   Four-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store liquid metal with increased ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Inserting rotor blade group of fully automatable turbine with the same diameter almost same shape every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Five-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increased ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Inserting rotor blade group of fully automatable turbine with the same diameter almost same shape every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Six-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Seven-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to the combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Eight-stage turbine drive Superheated steam injection temperature to be a three-stage combustion water jet (79 U) close to combustion gas injection temperature + liquid metal downward acceleration turbine drive + various ships driven by multiple water jets (79 U) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   9-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   10-stage turbine drive Superheated steam injection temperature to water jet (79U) of 3-stage combustion close to combustion gas injection temperature + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Intake air path length lens and heat and cold heat with sun light + Turbine Various blades for assembling energy saving cycle combined engines with mating blade assembly of the same diameter approximately the same shape as each stage.   Turbine driven superheated steam injection temperature is made to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + + horizontal axis (1h) driven by rotation direction alternate turbine + + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   One-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + horizontal axis (1h) rotation direction alternate turbine drive + liquid ball with increasing ball lifter (2F) Uplift and save + Thermal and cold energy production with suction air path length lens and sunlight + Fully automatic processable Various energy storage cycle coalescing engines with the turbine blade group having the same diameter and substantially the same shape for every stage .   Two-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball raising device (2F) + A variety of energy storage cycle coalescing engines, in which the rotating blade group of a turbine that can be thermally and coldly manufactured with intake air path length lenses and sunlight and that can be fully automatically processed has the same diameter and approximately the same diameter for each stage.   Three-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Four-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + an increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Five-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternating turbine + an increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Six-stage turbine drive Superheated steam injection temperature to be a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate turbine with horizontal axis (1 h) + increasing ball lifter (2F Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sunlight + A fully automatic machined turbine blade group of the same diameter is almost the same shape every stage Various energy as a mating bolt assembly turbine Preservation cycle union agency.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 7-stage turbine drive superheated steam injection temperature doubled to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) triple the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) quadruple the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   A 10-stage turbine driven superheated steam injection temperature of 5 times the turbine blade cross-section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 6 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter and shape for every stage Cycle coalescing agency.   Makes the turbine blade cross section (4X) 7 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Two-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage turbine drive superheated steam injection temperature of 9 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 10 times the four-stage turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 11 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 12 times the 6-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   7th stage turbine drive superheated steam injection temperature 13 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the turbine blade cross section (4X) 14 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is 15 times that of the nine-stage turbine driven superheated steam injection temperature 15 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is 16 times 10-stage turbine drive Superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + liquid metal to accelerate downward turbine drive + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 17 times the temperature of the turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Makes the turbine blade cross section (4X) 18 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 19 times 2-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 20 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 21 times the four-stage turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes a turbine blade cross section (4X) 22 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with atmosphere + increase ball lift device ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 23 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 24 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 25 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 9-stage turbine drive superheated steam injection temperature doubled to a combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) triple the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) four times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross-section (4X) five times the one-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 6 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) seven times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) eight times the four-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) nine times five-stage turbine drive superheated steam injection temperature to be the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 10 times the six-stage turbine drive superheated steam injection temperature Make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 rapidly with CO2 with the atmosphere + Various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 11 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 12 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 13 times the nine-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Drive the turbine blade cross section (4X) 14 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 16 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is 17 times the two-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   The turbine blade cross section (4X) is 18 times three-stage turbine drive The superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 19 times the four-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross-section (4X) 20 times 5-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 21 times the six-stage turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 22 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 23 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 24 times the 9-stage turbine drive superheated steam injection temperature brought close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 25 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade section (4X) into a water jet (79 U) of three-stage combustion with the doubled turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) for rotating direction alternate turbine + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the temperature of the one-stage turbine driven superheated steam injection three times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the double-stage turbine drive superheated steam injection temperature four times as high as the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) five times three-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 6 times the four-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) seven times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the six-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 9 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 10 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 11 times the 9-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make 10-stage turbine drive superheated steam injection temperature 12 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 13 times the temperature of the turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Increase and save liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing of moving blade group of turbine for every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 14 times the one-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Two-stage turbine drive superheated steam injection temperature of 15 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 16 times three-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with 18-fold 5-stage turbine drive superheated steam injection temperature 18 times the turbine blade cross section (4X) + liquid metal downward acceleration turbine drive + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) 19 times the six-stage turbine drive superheated steam injection temperature which is 19 times + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 20 times the 7-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 21 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 22 times 9-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 23 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4X) 24 times the temperature of the turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced with sunlight + A fully automatic machined turbine blade with the same diameter and shape with the same diameter for each stage Preservation cycle union agency.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 25 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with doubled two-stage turbine drive superheated steam injection temperature which is doubled + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Three-stage turbine drive superheated steam injection temperature triples the turbine blade cross section (4X) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + horizontal axis (1 h) to alternate rotation direction Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the four-stage turbine drive superheated steam injection temperature four times as high as the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 5-stage turbine drive superheated steam injection temperature five times as high as the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) six times the six-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) seven times the 7-stage turbine drive superheated steam injection temperature seven times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the eight-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 9 times the 9-stage turbine drive superheated steam injection temperature 9 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 10 times the 10-stage turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 11 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets of various ships 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Make the turbine blade cross section (4X) 12 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 13 times the two-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 14 times the three-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 15 times the four-stage turbine drive superheated steam injection temperature 15 times that of the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 16 times five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross-section (4X) 17 times as high as the seven-stage turbine drive superheated steam injection temperature 17 times + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   7-stage turbine drive with 18 times the turbine blade cross-section (4X) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to accelerate the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 19 times 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 20 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 21 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 22 times the temperature of the turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 23 times the one-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 24 times the two-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 25 times 3rd stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the double-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 5-stage turbine drive superheated steam injection temperature three times as high as the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with four-stage six-stage turbine drive superheated steam injection temperature four times as high as combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 7-stage turbine drive superheated steam injection temperature five times as high as the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the eight-stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 7 times the 9-stage turbine drive superheated steam injection temperature 7 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 9 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 10 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 11 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 12 times the 3-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 13 times the four-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 14 times the 5-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 15 times the six-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 16 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 17 times the eight-stage turbine drive superheated steam injection temperature to make the combustion gas injection temperature close to the combustion gas injection temperature Make a water jet (79U) of three-stage combustion Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is 18 times multiplied by a nineteen-stage turbine driven superheated steam injection temperature to a combustion gas injection temperature close to the three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   10-stage turbine drive with 19 times the turbine blade cross-section (4X) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 20 times the temperature of the turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 21 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a 22-fold two-stage turbine drive superheated steam injection temperature to a water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4X) a 23-fold three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4X) 24 times the four-stage turbine drive superheated steam injection temperature which is 24 times that of the combustion gas injection temperature ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) 25 times the 5-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion ++ Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the rotor blade group of the turbine to be fitted with the same diameter and almost same shape for every stage Various energy storage cycle combined engines with bolt assembly turbines.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4X) twice the six-stage turbine drive superheated steam injection temperature which is doubled to the combustion gas injection temperature ++ Increase and store the liquid metal with the increase ball lifter (2F) + Thermal and cold heat production with suction air path length lens and sunlight + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) triple the seven-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make a three-stage combustion water jet (79U) ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4X) four times the 8-stage turbine drive superheated steam injection temperature and make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) five times the 9-stage turbine drive superheated steam injection temperature which is 5 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion ++ Increase and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) six times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion ++ Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the rotor blade group of the turbine to be fitted with the same diameter and almost same shape for every stage Various energy storage cycle combined engines with bolt assembly turbines.   Configuration and method to make the turbine blade cross section (4X) a seven-fold turbine drive superheated steam injection temperature to a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + configuration and method of accelerating power increase sphere (2E) ++ increase Lift and store liquid metal with ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine blade group capable of fully automatic processing with the same diameter approximately the same diameter for every stage Various energy storage cycle combined engines with an assembled turbine.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) eight times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 9 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage turbine drive superheated steam injection temperature of 10 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 11 times the four-stage turbine drive superheated steam injection temperature three times combustion water jet temperature close to the combustion gas injection temperature + CO 2 rapidly with CO 2 using the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 12 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 13 times the six-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 14 times the 7-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) 15 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 16 times the 9-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make 10-stage turbine drive superheated steam injection temperature 17 times the turbine blade cross-section (4X) 17 times the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 18 times the temperature of the turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + water cargo jet (79U) Drive by plural + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine rotor blade group as same diameter of each section Various energy storage cycle combined engines with mating bolt assembly turbines.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 19 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Two-stage turbine drive superheated steam injection temperature of 20 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage turbine drive superheated steam injection temperature of 21 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 22 times the four-stage turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 23 times the 5-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 24 times the six-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 25 times 7 times of turbine drive superheated steam injection temperature to combustion gas injection temperature Make water jet (79U) of 3 stages combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) doubled to 8-stage turbine drive superheated steam injection temperature doubled + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) tripled to 9-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make 10-stage turbine drive superheated steam injection temperature of 4 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 5 times the temperature of the turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion (79U) Drive with multiple + Increase and save liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing of moving blade group of turbine for every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) six times as high as the one-stage turbine drive superheated steam injection temperature multiplied by 6 + + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) seven times two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 9 times four-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 10 times the five-stage turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 11 times the 6-stage turbine drive superheated steam injection temperature 3 times combustion water jet temperature close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 12 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 13 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 14 times the nine-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make 10-stage turbine drive superheated steam injection temperature 15 times the turbine blade cross section (4X) close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapidly with CO2 atmosphere and various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 16 times the temperature of the turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion (79U) Drive by plural + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine rotor blade group as same diameter of each section Various energy storage cycle combined engines with mating bolt assembly turbines.   Make the turbine blade cross section (4X) 17 times the one-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 18 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 19 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and heat retention increase ball rise device (2F) as much as possible + raise and save liquid metal with increase ball rise device (2F) + suction air path length lens and heat and cold heat radiation with sunlight + Various energy conservation cycle combined engines where the rotating blade group of the turbine to be manufactured has a fitting bolt assembly turbine with the same diameter and diameter.   Makes the turbine blade cross section (4X) 20 times the four-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and heat retention increase ball rise device (2F) as much as possible + raise and save liquid metal with increase ball rise device (2F) + suction air path length lens and heat and cold heat radiation with sunlight + Various energy conservation cycle combined engines where the rotating blade group of the turbine to be manufactured has a fitting bolt assembly turbine with the same diameter and diameter.   Makes the turbine blade cross section (4X) 21 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with atmosphere + intake air path length lens Heat and cold heat production with sunlight and heat retention increase ball rise device (2F) as much as possible + raise and save liquid metal with increase ball rise device (2F) + suction air path length lens and heat and cold heat radiation with sunlight + Various energy conservation cycle combined engines where the rotating blade group of the turbine to be manufactured has a fitting bolt assembly turbine with the same diameter and diameter.   Makes the turbine blade cross section (4X) 22 times the six-stage turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and heat retention increase ball rise device (2F) as much as possible + raise and save liquid metal with increase ball rise device (2F) + suction air path length lens and heat and cold heat radiation with sunlight Produce + Various energy conservation cycle combined engines with fully automatic machining possible as the rotor blade group of the turbine has the same diameter and approximately the same diameter for each stage.   Makes the turbine blade cross section (4X) 23 times the 7-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with sunlight and heat retention increase ball rise device (2F) as much as possible + raise and save liquid metal with increase ball rise device (2F) + suction air path length lens and heat and cold heat radiation with sunlight A variety of energy conservation cycle combined engines in which the moving blade group of the turbine that can be manufactured + fully automatic processing has the same diameter and approximately the same diameter for each stage and is a bolt assembly turbine.   Makes the turbine blade cross section (4X) 24 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross-section (4X) 25 times the 9-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make 10-stage turbine drive superheated steam injection temperature twice the turbine blade cross-section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) three times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter and shape for every stage Cycle coalescing agency.   Makes the turbine blade cross section (4X) four times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the temperature of the two-stage turbine drive superheated steam injected five times as high as the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the three-stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 7-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with eight times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 6th stage turbine drive superheated steam injection temperature nine times as high as the combustion gas injection temperature + horizontal axis (1h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 10 times the 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 11 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 12 times the 9-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 13 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4X) 14 times the temperature of the turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced with sunlight + A fully automatic machined turbine blade with the same diameter and shape with the same diameter for each stage Preservation cycle union agency.   Make the turbine blade cross section (4X) 15 times the one-stage turbine drive superheated steam injection temperature 3 times combustion water jet temperature close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 16 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross-section (4X) 17 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 18 times the four-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 19 times the 5-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion water jet (79U) with a 20x six-stage turbine drive superheated steam injection temperature 20 times the turbine blade cross section (4X) + liquid metal downward acceleration turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 21 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 22 times 8-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 23 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of the 3 stage combustion + accelerate the liquid metal downwards to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   10-stage turbine driven by 24 times the turbine blade cross section (4X) Makes the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerates the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Make the turbine blade cross section (4X) 25 times the temperature of the turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + + + Enhancing ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) double the double-stage one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross-section (4X) three times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) quadruple the 3-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly recovered with air 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross-section (4X) five times the four-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 5-stage turbine drive superheated steam injection temperature six times as high as the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 7-stage six-stage turbine drive superheated steam injection temperature approaching 7 times the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 8 times the 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the eight-stage turbine drive superheated steam injection temperature that is nine times closer to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 10 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 11 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 12 times the temperature of the turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 13 times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 14 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 15 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 16 times the four-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 17 times the five-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 18 times the six-stage turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 19 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 20 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 21 times the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   10-stage turbine drive with 22 times the turbine blade cross-section (4X) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 23 times the temperature of the turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward and drive various ships + various ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79U) with the turbine blade cross-section (4X) multiplied by 24 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Two-stage turbine drive superheated steam injection temperature 25 times the turbine blade cross section (4X) to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) twice the three-stage turbine drive superheated steam injection temperature doubled to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) three times the four-stage turbine drive superheated steam injection temperature triples the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) four times the five-stage turbine drive superheated steam injection temperature four times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) five times the six-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 6 times the 7-stage turbine drive superheated steam injection temperature three times combustion water jet temperature close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 7 times eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 8 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with a 10-stage turbine drive superheated steam injection temperature that is nine times that of the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade section (4X) into a water jet (79U) of three-stage combustion with 10 times the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) for rotating direction alternate turbine + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 11 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 12 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 13 times the three-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 14 times the four-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times the 5-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 16 times the six-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 17 times the seven-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 18 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 19 times the nine-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make 10-stage turbine drive superheated steam injection temperature of 20 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 21 times the temperature of the turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets 79U) Drive with multiple + Increase and save liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light + Turbine blade group capable of fully automatic processing in each stage Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Make the turbine blade cross section (4X) 22 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 23 times the two-stage turbine drive superheated steam injection temperature Make the water jet (79U) of the three-stage combustion close to the combustion gas injection temperature + Drive the liquid metal downwards + Drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature 24 times the turbine blade cross section (4X) to make the water jet (79 U) of three-stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the superheated steam injection temperature of the turbine blade section (4X) to 25 times that of the four-stage turbine at 25 times that of the combustion gas injection temperature to make it a waterjet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) doubled to five-stage turbine drive superheated steam injection temperature doubled + driving the liquid metal downwards + driving various metals + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross-section (4X) triple the six-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) four times the 7-stage turbine drive superheated steam injection temperature 4 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 5 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 6 times 9 times turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) seven times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 8x turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) for rotating direction alternate turbine + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the one-stage turbine drive superheated steam injection temperature nine times as close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 10 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 11 times the three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 12-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 13 times 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 14 times the six-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times the 7-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 16 times 8-stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 17 times the speed of the 9th stage turbine driven superheated steam injection temperature 17 times the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make 10-stage turbine drive superheated steam injection temperature 18 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 19 times the temperature of the turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Make the turbine blade cross section (4X) 20 times that of the first stage turbine driven superheated steam injection temperature 20 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 21 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 22 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water for various ships and ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 23 times the four-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with a turbine blade cross section (4X) 24 times five-stage turbine drive superheated steam injection temperature close to combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79 U) with 25-fold six-stage turbine drive superheated steam injection temperature 25 times the turbine blade cross section (4X) + liquid metal downward acceleration turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is doubled and the 7-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + liquid metal to accelerate the downward turbine drive + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) tripled and eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) quadruple the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   A 10-stage turbine driven superheated steam injection temperature of 5 times the turbine blade cross-section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 6 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 7 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) eight times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the temperature of the three-stage turbine drive superheated steam injected nine times as high as the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 10 times four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 11 times 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 12 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 13 times the 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 14 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times the 9-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 16 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 17 times the temperature of the turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter and shape for every stage Cycle coalescing agency.   Makes the turbine blade cross section (4X) 18 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 19 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage turbine drive superheated steam injection temperature of 20 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 21 times the four-stage turbine drive superheated steam injection temperature 21 times that of the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 22 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 23 times the six-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 using the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   7th stage turbine drive superheated steam injection temperature 24 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross-section (4X) 25 times 8-stage turbine driven superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is doubled and the 9th stage turbine drive superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   10-stage turbine drive with 3 times the blade cross-section (4X) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to accelerate the liquid metal + Various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) four times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Makes the turbine blade cross-section (4X) five times the one-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 6 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) seven times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the four-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 9 times the 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 10 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 11 times the 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 12-stage 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 13 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 14 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 16 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 17 times the two-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 18 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 19 times the four-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 20 times the five-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 21 times the six-stage turbine drive superheated steam injection temperature 21 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with CO2 atmosphere and various ships + water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross-section (4X) 22 times 7-stage turbine drive superheated steam injection temperature Make combustion water jet temperature close to combustion gas injection temperature Make water jet (79U) of combustion + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 23 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 24 times the 9-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   10-stage turbine drive with 25 times the turbine blade cross section (4X) Makes the water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to accelerate the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross-section (4X) twice the three-stage combustion water jet (79U) with the temperature of the turbine driven superheated steam injection close to the combustion gas injection temperature + drive the liquid metal downwards + drive the various turbines Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) tripled to one-stage turbine drive superheated steam injection temperature tripled + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Two-stage turbine drive superheated steam injection temperature quadrupled to 4 times the turbine blade cross section (4X) to make the water jet (79U) of three-stage combustion close to combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 6 times the four-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) seven times the five-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the six-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 9 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 10 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 11 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 12 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 13 times the temperature of the turbine drive superheated steam injection close to the combustion gas injection temperature + horizontal axis (1h) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Make the turbine blade cross section (4X) 14 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 15 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 16 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 18 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 19 times the six-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 20 times the 7-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross-section (4X) 21 times 8-stage turbine drive superheated steam injection temperature Make combustion water jet temperature close to combustion gas injection temperature Make water jet (79U) of combustion + + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 22 times 9-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapidly with CO2 with atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross-section (4X) 23 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 24 times the temperature of the turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapidly with the atmosphere + use various watercrafts 79U) Drive with multiple + Increase and save liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing of moving blade group of turbine for every stage Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 25 times the one-stage turbine drive superheated steam injection temperature 25 times that of the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Two-stage turbine drive superheated steam injection temperature doubling the turbine blade cross section (4X) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + acceleration the liquid metal downward to drive turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine-driven superheated steam injection temperature triples the turbine blade cross section (4X) to make it a three-stage combustion water jet (79U) that brings the temperature close to the combustion gas injection temperature Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive four-stage turbine drive superheated steam injection temperature four times the turbine blade cross section (4X) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with five-stage turbine drive superheated steam injection temperature five times the turbine blade cross-section (4X) close to combustion gas injection temperature + acceleration of liquid metal downwards + driving of various metals + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) six times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) seven times the 7-stage turbine drive superheated steam injection temperature seven times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) eight times the eight-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 9 times the 9-stage turbine drive superheated steam injection temperature 9 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 10 times the 10-stage turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4X) a water jet (79U) of three stages combustion with 11 times the temperature of the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced with sunlight + A fully automatic machined turbine blade with the same diameter and shape with the same diameter for each stage Preservation cycle union agency.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 12 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 13-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 14-stage three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 15 times four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 16 times 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to alternate rotation direction Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 17 times the six-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 18 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes a turbine blade cross section (4X) 19 times 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 20 times the speed of the superheated steam injection heated by the nine-stage turbine 20 times that of the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 21 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 22 times the temperature of the turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Make the turbine blade cross section (4X) 23 times the one-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter and diameter As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 24 times the 2-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 25 times three-stage turbine drive superheated steam injection temperature Make combustion water jet temperature close to combustion gas injection temperature Make water jet (79U) of combustion + + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) doubled to four-stage turbine drive superheated steam injection temperature doubled + CO2 with atmosphere and rapid recovery use of various passenger ships + water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion driven water jet (79U) with the turbine blade cross-section (4X) tripled and three-stage five-stage turbine drive superheated steam injection temperature tripled + liquid metal accelerated down turbine driving + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) quadrupled to 6-stage turbine drive superheated steam injection temperature four times + liquid metal drive down to acceleration turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   7th stage turbine drive superheated steam injection temperature 5 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 6 times 8 times the turbine drive superheated steam injection temperature to make the combustion gas injection temperature close to the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   The turbine blade cross section (4X) is seven times the 9-stage turbine drive temperature of the superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) eight times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a water jet (79U) of three-stage combustion with the temperature of the turbine drive superheated steam injection close to nine times the combustion gas injection temperature Produce thermal cold heat with air path length lens and sunlight + Save and maintain liquid metal with increase ball lifter (2F) + Thermal cool heat with air suction path length lens and sun light + Turbine blade group of each stage Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Method and structure for accelerating a power-increasing sphere (2E) to make a turbine blade cross section (4X) a 10-fold one-stage turbine drive superheated steam injection temperature and a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a water jet (79U) of three-stage combustion with the temperature of the two-stage turbine driven superheated steam 11 times as high as the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing possible turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross section (4X) into a 12-stage three-stage turbine drive superheated steam injection temperature and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing possible A variety of energy storage cycle combined engines, in which the rotor blade group of the turbine has the same diameter and diameter, and has the same diameter.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a 13-fold four-stage turbine drive superheated steam injection temperature to a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) 14 times the 5-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating a power-increasing sphere (2E) to make a turbine blade cross section (4X) 15 times six-stage turbine driven superheated steam injection temperature to a combustion gas injection temperature and make a three-stage combustion water jet (79U) + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a water jet (79U) of three-stage combustion in which the temperature of the superheated steam injection heated to seven times the seven-stage turbine driven 16 times + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing possible turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4X) 17 times the 8-stage turbine drive superheated steam injection temperature and make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Heat and cold heat production with suction air path length lens and sunlight + Save and keep liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing possible A variety of energy storage cycle combined engines, in which the rotor blade group of the turbine has the same diameter and diameter, and has the same diameter.   Makes the turbine blade cross section (4X) 18 times the speed of the superheated steam injection temperature of the nine-stage turbine driven 18 times that of the combustion gas injection temperature to make the water jet (79U) of three-stage combustion Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 19 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapidly with CO2 atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 20 times the temperature of the turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive by plural + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine rotor blade group as same diameter of each section Various energy storage cycle combined engines with mating bolt assembly turbines.   Make the turbine blade cross section (4X) 21 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 22 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 23 times the 3-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 24 times the four-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 25 times the 5-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) doubled and six-stage turbine drive superheated steam injection temperature close to combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   7-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4X) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) quadruple the 8-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 5 times the 9-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO 2 atmosphere and various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make 10-stage turbine drive superheated steam injection temperature of 6 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 7 times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + watercraft various cargo ships (79U) Drive by plural + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine rotor blade group as same diameter of each section Various energy storage cycle combined engines with mating bolt assembly turbines.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) eight times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 9 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage turbine drive superheated steam injection temperature of 10 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 11 times the four-stage turbine drive superheated steam injection temperature three times combustion water jet temperature close to the combustion gas injection temperature + CO 2 rapidly with CO 2 using the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 12 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 13 times the six-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 14 times the 7-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) 15 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 16 times the 9-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make 10-stage turbine drive superheated steam injection temperature 17 times the turbine blade cross-section (4X) 17 times the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drive water with multiple water jets (79U) + Increase and store liquid metal with increased ball lifter (2F) + Heat and cold heat with suction air path length lens and sunlight + Fully automatic processable blade group of turbine Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 18 times the temperature of the turbine drive superheated steam injection temperature 18 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + watercraft various cargo ships (79U) Drive with multiple + Increase and save liquid metal with increase ball raising device (2F) + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing of moving blade group of turbine for every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 19 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 rapidly recovered and used with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Two-stage turbine drive superheated steam injection temperature of 20 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Three-stage turbine drive superheated steam injection temperature of 21 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 22 times the four-stage turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 23 times the 5-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapidly with CO2 atmosphere and various cargo ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Make the turbine blade cross section (4X) 24 times the six-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 25 times 7 times of turbine drive superheated steam injection temperature to combustion gas injection temperature Make water jet (79U) of 3 stages combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) doubled to 8-stage turbine drive superheated steam injection temperature doubled + CO2 rapid recovery utilization with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) tripled to 9-stage turbine drive superheated steam injection temperature tripled + CO2 rapidly recovered and used with the atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make 10-stage turbine drive superheated steam injection temperature of 4 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + various cargo ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 5 times the temperature of the turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + intake air path length lens and sun Produce heat and cold with light + Increase temperature with warmer increase ball lifter (2F) + Save and maintain liquid metal with raise ball raiser (2F) + Heat and cold heat with intake air path length lens and sunlight + Turbine movement Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 6 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with heat and sunlight + Drop increase with heat retention increase ball raising device (2F) + Rise and store liquid metal with rise ball raising device (2 F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Makes the turbine blade cross section (4X) seven times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with heat and sunlight + Drop increase with heat retention increase ball raising device (2F) + Rise and store liquid metal with rise ball raising device (2 F) + Heat and cold heat production with suction air path length lens and sunlight + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Makes the turbine blade cross section (4X) eight times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + intake air path length lens Heat and cold heat production with heat and sunlight + Drop increase with heat retention increase ball lift device (2F) + Rise and store liquid metal with heat increase ball lift device (2 F) + Heat and cold heat production with suction air path length lens and sunlight + All Various energy conservation cycle combined engines which made the moving blade group of the turbine the same diameter of each stage, and made the fitting bolt assembly turbine so that automatic processing is possible.   Makes the turbine blade cross section (4X) 9 times the four-stage turbine drive superheated steam injection temperature 9 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + CO2 rapidly recover with CO2 atmosphere + intake air path length lens Heat and cold heat production with heat and sunlight + Drop increase with heat retention increase ball lift device (2F) + Rise and store liquid metal with heat increase ball lift device (2 F) + Heat and cold heat production with suction air path length lens and sunlight + All Various energy conservation cycle combined engines, where the rotating blade group of the turbine that can be machined automatically has the same diameter and diameter, and has the same diameter and diameter.   Makes the turbine blade cross section (4X) 10 times the five-stage turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 11 times the six-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 12 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 13 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 14 times the nine-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 15 times the 10-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 16 times turbine driven superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4X) into a 17-stage one-stage turbine drive superheated steam injection temperature to a combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 18-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 19-stage three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 20 times the four-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 21 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 22 times the six-stage turbine drive superheated steam injection temperature 22 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 23 times the 7-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 24 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 25 times the 9-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make 10-stage turbine drive superheated steam injection temperature twice the turbine blade cross-section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) triple the turbine drive superheated steam injection temperature by 3 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) quadrupled to 1-stage turbine drive superheated steam injection temperature 4 times + CO2 with atmosphere and rapid recovery utilization + various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Two-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage turbine-driven superheated steam injection temperature of 6 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the turbine blade cross section (4X) to seven times the four-stage turbine drive superheated steam injection temperature to make it a three-stage combustion water jet (79U) close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) eight times the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) increased by 9 times the six-stage turbine drive superheated steam injection temperature + combustion gas drive down the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   7th stage turbine drive superheated steam injection temperature 10 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive of various metals + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 11 times the eight-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 12 times the 9-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 13 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 14 times the temperature of the turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Lift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter and shape for every stage Cycle coalescing agency.   Makes the turbine blade cross section (4X) 15 times the one-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the double-stage turbine drive superheated steam injection temperature 16 times as close to the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a 17-stage three-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + rotation axis alternate with a horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 18 times the four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 19-stage 5-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 20 times the six-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + horizontal axis (1h) to alternate rotation direction Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 21 times 7-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 22 times 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 23 times the 9th stage turbine driven superheated steam injection temperature 23 times the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 24 times 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4X) 25 times the temperature of the turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are produced with sunlight + A fully automatic machined turbine blade with the same diameter and shape with the same diameter for each stage Preservation cycle union agency.   Three-stage combustion water jet (79 U) that doubles the turbine blade cross-section (4X) and drives one-stage turbine drive superheated steam injection temperature doubled + CO2 with atmosphere and rapid recovery use of various passenger ships + water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Two-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4X) to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage turbine drive superheated steam injection temperature quadrupled to 4 times the turbine blade cross section (4X) to make it a three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapidly recovered and used together with the atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) five times as high as the four-stage turbine drive superheated steam injection temperature five times + CO2 with the atmosphere for rapid recovery use + various passenger ships with water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) multiplied by 6 and the five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + CO2 with the atmosphere for rapid recovery use + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Three-stage combustion water jet (79U) with 7-stage six-stage turbine drive superheated steam injection temperature which makes the turbine blade cross section (4X) seven times + driving acceleration of liquid metal downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   7th stage turbine drive superheated steam injection temperature to 8 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration of liquid metal downwards + turbine drive various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is increased by 9 times and the eight-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   The turbine blade cross section (4X) is 10 times the 9-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make the water jet (79U) of 3 stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 11 times the 10-stage turbine drive superheated steam injection temperature to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Make the turbine blade cross section (4X) 12 times the temperature of the turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 13 times the one-stage turbine drive superheated steam injection temperature three-stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 14 times the two-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 16 times the four-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 17 times the 5-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 18 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 19-stage seven-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 20 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 21 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 22 times 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 23 times the temperature of the turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature and make it a water jet (79U) of three stages combustion + CO2 rapid recovery utilization with the atmosphere + augmented ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 24 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 25 times the two-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) twice the three-stage turbine drive superheated steam injection temperature doubled to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Makes the turbine blade cross section (4X) three times the four-stage turbine drive superheated steam injection temperature triples the combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage combustion water jet (79 U) with the turbine blade cross section (4X) quadrupled to 5-stage turbine drive superheated steam injection temperature quadrupled + CO2 rapidly recovered and used together with the atmosphere + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage combustion water jet (79 U) with the turbine blade cross-section (4X) five times as high as the six-stage turbine drive superheated steam injection temperature five times + CO2 with the atmosphere for rapid recovery use + various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make 7-stage turbine drive superheated steam injection temperature 6 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) seven times eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   The turbine blade cross section (4X) is increased by 8 times and the nine-stage turbine drive superheated steam injection temperature is made close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   A 10-stage turbine driven by a 9-fold turbine blade cross section (4X) Makes the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downward to drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 10 times the temperature of the turbine drive superheated steam injection temperature 10 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Turbine blade group of turbine approximately the same diameter every stage Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) 11 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Two-stage turbine drive superheated steam injection temperature of the turbine blade section (4X) 12 times that of the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 13 times the three-stage turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 14 times the four-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times the 5-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 16 times the six-stage turbine drive superheated steam injection temperature 16 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 17 times the seven-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 18 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 19th stage turbine drive superheated steam injection temperature 19 times that of the combustion gas injection temperature + horizontal axis (1h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 20 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 21 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Increase and store liquid metal with increase ball lifter (2F) + Produce heat / cold energy with suction air path length lens and sunlight + Fully automatic processing allows the blade group of turbine to be fitted with the same diameter and approximately the same shape for every stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 22 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 23 times the two-stage turbine drive superheated steam injection temperature 23 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lift 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 24 times three-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 25 times the four-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) twice the five-stage turbine drive superheated steam injection temperature doubled to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross-section (4X) triple the six-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   The turbine blade cross section (4X) is quadrupled to 7 stages of turbine drive superheated steam injection temperature 3 times combustion water jet temperature close to combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + various passenger ships are water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Makes the turbine blade cross section (4X) five times the eight-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 6 times the 9-stage turbine drive superheated steam injection temperature Make combustion water jet temperature close to the combustion gas injection temperature Make water jet (79U) of 3 stages combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make 10-stage turbine drive superheated steam injection temperature of 7 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 8 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) 79U) Drive with multiple + Increase and save liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light + Turbine blade group capable of fully automatic processing in each stage Various energy storage cycle combined engines with mating bolt assembly turbine as same diameter and same shape.   Make the turbine blade cross section (4X) 9 times the one-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Two-stage turbine drive superheated steam injection temperature of 10 times the turbine blade section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Three-stage turbine drive superheated steam injection temperature of 11 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal to accelerate downward turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 12 times the four-stage turbine drive superheated steam injection temperature 12 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage combustion water jet (79U) with 13-fold 5-stage turbine drive superheated steam injection temperature which is 13 times the turbine blade cross section (4X) + acceleration of liquid metal downward to drive turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 14 times the six-stage turbine drive superheated steam injection temperature 14 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 15 times the 7-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 16 times 8-stage turbine driven superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 17 times the speed of the 9th stage turbine driven superheated steam injection temperature 17 times the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 18 times 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 19 × turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 20 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with the 21-stage two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 22 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade section (4X) into a water jet (79U) of three-stage combustion with 23 times the four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 24 times the 5-stage turbine drive superheated steam injection temperature 24 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery use with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 25 times the six-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) double the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) triple the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) quadruple the 9th stage turbine driven superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of 3 stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make 10-stage turbine drive superheated steam injection temperature of 5 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 6 times the turbine drive superheated steam injection temperature 6 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + watercraft various passenger ships ( 79U) Drive with multiple + Increase and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Insert rotor blade group of turbine with same size and diameter for each stage Various energy storage cycle combined engines with combined bolt assembly turbines.   Make the turbine blade cross section (4X) seven times the one-stage turbine drive superheated steam injection temperature Make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 rapidly with CO2 with the atmosphere + Various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat manufacture with sunlight + Rotor blade group of turbine with same diameter of each section As a mating bolt assembly turbine and various energy storage cycle combined engine.   Two-stage turbine drive superheated steam injection temperature of 8 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + various passenger ships water Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Three-stage turbine drive superheated steam injection temperature of 9 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Drive the turbine blade cross section (4X) to 10 times the four-stage turbine drive superheated steam injection temperature and make it a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the turbine blade cross section (4X) to 11 times 5-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate turbine drive + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 12 times the 6-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   7th stage turbine drive superheated steam injection temperature 13 times the turbine blade cross section (4X) to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + acceleration driving liquid metal downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Drive the turbine blade cross section (4X) 14 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 15 times the 9-stage turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 16 times the 10-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) 17 times the temperature of the turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross section (4X) 18 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + augmented ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Make the turbine blade cross section (4X) 19 times 2-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) 20 times three-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 21-stage four-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 22 times the 5-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of 3-stage combustion + horizontal axis (1h) to alternate rotation direction Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 23 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 24 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Makes the turbine blade cross section (4X) 25 times 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) twice the 9-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and makes it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   A 10-stage turbine driven superheated steam injection temperature triples the turbine blade cross-section (4X) to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Make the turbine blade cross section (4X) four times the temperature of the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Lift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Fully automatic processing Capable of moving blade group of the turbine with the same diameter and shape for every stage Cycle coalescing agency.   Makes the turbine blade cross-section (4X) five times the one-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Makes the turbine blade cross section (4X) 6 times the two-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapidly recovers use with the atmosphere + various passenger ships water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Three-stage turbine drive superheated steam injection temperature seven times the turbine blade cross-section (4X) is made close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) eight times the four-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) nine times five-stage turbine drive superheated steam injection temperature to be the combustion gas injection temperature to make a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 10 times the six-stage turbine drive superheated steam injection temperature Make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 rapidly with CO2 with the atmosphere + Various passenger ships with water Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   Make the turbine blade cross section (4X) 11 times the 7-stage turbine drive superheated steam injection temperature to make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + accelerate the liquid metal downward to drive the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 12 times 8-stage turbine driven superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 13 times the 9-stage turbine drive superheated steam injection temperature Make the water jet (79U) of 3 stage combustion close to the combustion gas injection temperature + Accelerate the liquid metal downward to drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Drive the turbine blade cross section (4X) 14 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + accelerate the liquid metal downward to drive the turbine + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 15 times the temperature of the turbine drive superheated steam injection temperature 15 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Waterjet (79U) driven by multiple + rising ball lifter (2F) to lift and store liquid metal + suction air path length lens and heat and cold heat production with sunlight + moving blade group of fully automatic processing possible turbine Various energy storage cycle combined engines with mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Makes the turbine blade cross section (4X) 16 times 1-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 17 times the two-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 18 times three-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 19 times the four-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross-section (4X) 20 times 5-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 21 times the 6-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) with three stages of combustion with 22 times 7-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) to alternate rotation direction Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 23 times the 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with 24 times the 9-stage turbine drive superheated steam injection temperature brought close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 25 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Make the turbine blade cross section (4X) double the turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with the atmosphere + increased ball lifter (2F) Liquid metal is raised and stored + Intake air path length lens and heat and cold are manufactured with sun light + Turbines Various blades for assembling blades with the same diameter and shape with the same diameter for each stage.   Makes the turbine blade cross-section (4X) triple the triple-stage turbine drive superheated steam injection temperature tripled to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross-section (4X) quadruple the 2-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) five times three-stage turbine drive superheated steam injection temperature 5 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 6 times the four-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Make the turbine blade cross section (4X) seven times the five-stage turbine drive superheated steam injection temperature seven times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) eight times the six-stage turbine drive superheated steam injection temperature to be the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 9 times the 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a 3-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water for various ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight As a mating bolt assembly turbine and various energy storage cycle combined engine.   Make the turbine blade cross section (4X) 10 times the eight-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Raise and store liquid metal with increase ball lifter (2 F) + Heat and cool heat with suction air path length lens and sunlight + Fully automatic processable turbine bucket group Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 11 times the 9-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery use with the atmosphere + water various passenger ships Drives with multiple jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold heat production with sunlight + Turbine blade group capable of fully automatic processing Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter approximately same shape every paragraph.   10-stage turbine drive with a 12-fold turbine blade cross section (4X) Makes the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Accelerates the liquid metal downwards to drive the liquid metal + Various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Make the turbine blade cross section (4X) 13 times the temperature of the turbine drive superheated steam injection temperature 13 times the combustion gas injection temperature to make the water jet (79U) of three-stage combustion + accelerate the liquid metal downward to drive the turbine + various ships Drives with multiple water jets (79U) + Ups and stores liquid metal with increasing ball lifter (2F) + Intake air path length lens and heat and cold manufacture with sun light Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 14 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive water with multiple water jets (79U) + Raise and store liquid metal with increase ball lifter (2F) + Intake air path length lens and heat and cold heat with sunlight Various energy storage cycle combined engines with mating bolt assembly turbines with approximately the same diameter.   Two-stage turbine drive superheated steam injection temperature of 15 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cold with solar light + Fully automatic processable turbine blade Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 16 times three-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward and accelerate the liquid metal + various ships Drive the water with multiple water jets (79U) + Save the liquid metal with the increase ball lifter (2F) + Intake air path length lens and heat and cool with solar light + Dynamic turbine with full automatic processing Various energy storage cycle coalescing engines, which use a blade assembly with a bolt assembly and a turbine assembly with approximately the same diameter and diameter.   Makes the turbine blade cross section (4X) 17 times the four-stage turbine drive superheated steam injection temperature 17 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 18 times 5-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 19 times the six-stage turbine drive superheated steam injection temperature 19 times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) 20 times the 7-stage turbine drive superheated steam injection temperature 20 times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO 2 atmosphere + increase ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) 21 times the 8-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to the combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 22 times the 9-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Make the turbine blade cross section (4X) 23 times the 10-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + horizontal axis (1h) to rotate alternately Make a turbine + raise and store liquid metal with an increase ball lifter (2F) + produce a thermal and cold energy by suction air path length lens and sun light Various energy storage cycle combined engines with turbines.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with the 24x turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1h) for rotating direction alternate turbine + Lift and store liquid metal with increase ball lifter (2F) + Heat and cold heat production with suction air path length lens and sunlight + Rotor blade group of turbine with same diameter and same shape for every stage Various energy conservation cycle coalition agencies.   Turn the turbine blade cross section (4X) into a water jet (79 U) of three-stage combustion with 25 times the one-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + horizontal axis (1 h) Make it a turbine + raise and store liquid metal with an increase ball lifter (2F) + make a thermal air / cool heat with suction air path length lens and sunlight + fully automatic processing possible bucket blade of turbine with almost same size As a mating bolt assembly turbine and various energy storage cycle combined engine.   Turn the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion with doubled two-stage turbine drive superheated steam injection temperature which is doubled + horizontal axis (1h) to rotate alternately Use a turbine + Increase and store liquid metal with an increase ball lifter (2F) + Intake air path length lens and heat and cold manufacture with solar light + Moving blade group of a turbine that can be fully automatically machined Various energy storage cycle combined engines with mating bolt assembly turbine as same shape.   Three-stage turbine drive superheated steam injection temperature triples the turbine blade cross-section (4X) to the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) quadruple four-stage turbine drive superheated steam injection temperature 3rd stage combustion water jet (79U) close to combustion gas injection temperature + CO2 rapid recovery utilization with CO2 + atmosphere 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) five times the five-stage turbine drive superheated steam injection temperature five times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) 2F) Uplift and store liquid metal + Thermal and cold heat production with suction air path length lens and sunlight + Various energy conservation cycle coalescing engines with mating blade assembly of the same diameter as the turbine blade group of each stage with the same diameter for each stage .   Makes the turbine blade cross section (4X) six times the six-stage turbine drive superheated steam injection temperature six times the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + CO2 rapid recovery utilization with the atmosphere + increased ball lifter ( 2F) Lift and store liquid metal + Heat and cold heat production with suction air path length lens and sunlight + Fully automatic processing Various types of turbine blade group having the same diameter and the same diameter for each stage Energy Conservation Cycle Coalition Agency.   Makes the turbine blade cross section (4X) seven times the 7-stage turbine drive superheated steam injection temperature seven times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion 2F) Uplift and store liquid metal + Thermal and cold energy production with suction air path length lens and sunlight + Turbine blade group of turbine that can be fully automatic processing is made the fitting bolt assembly turbine with the same diameter and shape. Various energy conservation cycle union engine.   Makes the turbine blade cross section (4X) eight times the eight-stage turbine drive superheated steam injection temperature eight times the combustion gas injection temperature to make it a water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water various passenger ships Drive a plurality of jets (79 U) + raise and store liquid metal with an increase ball lifter (2 F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass + moving blade group of turbine stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Turn the turbine blade cross section (4X) into a 9-stage nine-stage turbine driven superheated steam injection temperature to a combustion gas injection temperature to make it a three-stage combustion water jet (79U) Drive a plurality of jets (79 U) + raise and store liquid metal with an increase ball lifter (2 F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass + moving blade group of turbine stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make 10-stage turbine drive superheated steam injection temperature 10 times the turbine blade cross section (4X) close to combustion gas injection temperature to make water jet (79U) of three-stage combustion + CO2 rapid recovery use with the atmosphere + water for various ships Drive a plurality of jets (79 U) + raise and store liquid metal with an increase ball lifter (2 F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass + moving blade group of turbine stage Various energy storage cycle combined engines with fitting bolt assembly turbine as same diameter almost same shape.   Make the turbine blade cross section (4X) 11 times the temperature of the turbine drive superheated steam injection temperature to be the combustion gas injection temperature and make it a three-stage combustion water jet (79U) + + CO2 rapid recovery use with the atmosphere + water jets of various ships 79U) Drive with multiple + Lifting and storing liquid metal with increasing ball lifter (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass divided pressure + Rotatable turbine blade capable of fully automatic processing Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Make the turbine blade cross section (4X) 12 times the one-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature to make it a three-stage combustion water jet (79U) + + CO2 for rapid recovery use with the atmosphere + water for various ships Drive multiple jets (79 U) + Lift and store liquid metal with increasing ball lifter (2F) + Turbine with acceleration + fully automatic processing possible with combustion gas heat quantity and mass or pressure divided and stored into compressed air heat quantity and mass A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Make the turbine blade cross section (4X) 13 times the two-stage turbine drive superheated steam injection temperature to make the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + drive the liquid metal downward to accelerate the turbine + various ships Drive the watercraft (79U) with a plurality of water jets + Lift and store the liquid metal with the increase ball lifter (2F) + Heat with combustion gas heat and mass or compressed air heat with mass and pressure saved + Rotor of turbine with pressure Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage turbine drive superheated steam injection temperature 14 times the turbine blade cross-section (4X) to make it a combustion gas injection temperature close to the combustion gas injection temperature to make water jet (79U) of three-stage combustion Drive the watercraft (79U) with a plurality of water jets + Lift and store the liquid metal with the increase ball lifter (2F) + Heat with combustion gas heat and mass or compressed air heat with mass and pressure saved + Rotor of turbine with pressure Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Four-stage turbine drive superheated steam injection temperature of 15 times the turbine blade cross section (4X) is made close to the combustion gas injection temperature to make a water jet (79U) of three-stage combustion + liquid metal to accelerate downward turbine drive + various ships Drive the watercraft (79U) with a plurality of water jets + Lift and store the liquid metal with the increase ball lifter (2F) + Heat with combustion gas heat and mass or compressed air heat with mass and pressure saved + Rotor of turbine with pressure Various energy conservation cycle combined engines which set the group as fitting bolt assembly turbine with the same diameter and the same diameter every paragraph.   Three-stage combustion water jet (79U) with the turbine blade cross section (4X) 16 times five-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + liquid metal acceleration turbine drive downward + various ships Drive liquid with multiple water jets (79U) + Lift and store liquid metal with increased ball lifter (2F) + Accelerated by pressure stored divided into combustion gas heat quantity and mass or compressed air heat quantity and mass + Fully automatic processing possible Various energy conservation cycle combined engines which make the blade group of the turbine the same diameter of each section and make the fitting bolt assembly turbine.   Three-stage combustion water jet (79U) with the turbine blade cross-section (4X) 17 times as high as the seven-stage turbine drive superheated steam injection temperature 17 times + liquid metal acceleration turbine drive downward + various ships Drive the water with multiple water jets (79U) + Lift and store the liquid metal with the increase ball lifter (2F) + Accelerate with the pressure divided and saved into combustion gas heat quantity and mass or compressed air heat quantity and mass + Fully automatic processing Various energy conservation cycle combined engines which made the bucket group of the possible turbines the fitting bolt assembly turbine as the same diameter of each stage.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) 18 times 7-stage turbine drive superheated steam injection temperature to the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a water jet (79U) of three-stage combustion with the 19-stage 8-stage turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) 20 times the speed of superheated steam injection heated by the 9th stage turbine driven by the 20th stage to the combustion gas injection temperature + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) into a water jet (79U) of three-stage combustion in which the temperature of superheated steam injection heated by 10 times of 21 stages + Produce heat and cold with suction air path length lens and sunlight + Save liquid metal with rising ball lifter (2F) + Save heat of combustion gas heat and mass or compressed air heat and mass divided pressure + accelerate with total pressure Various energy conservation cycle combined engines which made the moving blade group of the turbine the same diameter of each stage, and made the fitting bolt assembly turbine so that automatic processing is possible.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a water jet (79 U) of three-stage combustion with 22 times the temperature of the turbine drive superheated steam injection close to the combustion gas injection temperature Produce thermal cold heat with an air path lens and sunlight + Ascend and store liquid metal with increased ball raising device (2F) + Accelerate with a pressure divided and stored as combustion gas heat quantity and mass or compressed air heat quantity and mass + Fully automatic processing A variety of energy storage cycle combined engines, where the rotor blade group of the turbine that can be used has the same diameter and diameter as each stage.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) a 23-fold one-stage turbine drive superheated steam injection temperature and the water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Method and structure for accelerating the power-increasing sphere (2E) to make the turbine blade cross-section (4X) 24 times the temperature of the two-stage turbine drive superheated steam injection heated to the combustion gas injection temperature + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Configuration and method for accelerating the power increase sphere (2E) to make the turbine blade cross section (4X) 25 times three-stage turbine drive superheated steam injection temperature 25 times the combustion gas injection temperature and make it a water jet (79U) of three-stage combustion + Thermally cool heat production with suction air path length lens and sunlight + Uplift storage of liquid metal with increased ball raising device (2F) + Acceleration with combustion gas heat quantity and mass or compressed air heat quantity and mass separately stored pressure + Turbine A variety of energy storage cycle combined engines, with the rotating blade group of each section having the same diameter and approximately the same diameter for each bolt assembly.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines provided with a mating bolt assembly turbine in one stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with two stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle coalescing engines equipped with three bolt assembly turbines in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines with eight combined bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines with 10 joint bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines provided with a single bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle coalescing engines equipped with two bolt assembly turbines in two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with 3 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with six stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with 7 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with 9 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle combined engines equipped with a mating bolt assembly turbine as one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle combined engines with two stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle united engines with four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines with two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle united engines with four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Device (2F) increases the drop + Increases the ball lifter (2F) to lift and store liquid metal + combustion gas heat energy and mass or compressed air heat energy and pressure divided and saved pressure + fully automatic processable turbine blade Various energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise In the device (2F), increase the drop + increase and store the liquid metal in the increase ball lifter (2F) + acceleration with the pressure stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the wing group.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball raiser (2F) + save the heat of combustion gas and mass or compressed air heat and mass separately for pressure + acceleration with fully automatic processing possible with pressure A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass A variety of energy storage cycle combined engines with the same diameter and same shape provided with a fitting bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engines with two stages of mating bolt assembly turbines with the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   Three-stage turbine drive Superheated steam injection temperature close to combustion gas injection temperature Make water jet (79U) of three-stage combustion + CO2 rapid recovery use with atmosphere + Increase and save liquid metal with increase ball lifter (2F) + Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the same size of the rotor blade of the turbine with the same diameter for each stage with the pressure divided and stored in the combustion gas heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Two-stage turbine drive Make superheated steam injection temperature close to combustion gas injection temperature Make water jet (79 U) of three-stage combustion + Drive liquid metal downward with acceleration turbine + Drive various ships with multiple water jets (79 U) + Lift and store the liquid metal with the increase ball lifter (2F) + Accelerate the heat with combustion gas heat and mass or compressed air heat and pressure with pressure divided separately + Insert the rotor blade group of the turbine as the same diameter approximately in each stage Various energy storage cycle combined engines provided with a single bolt assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Accelerate with split heat stored in combustion gas heat and mass or compressed air heat and mass + Rotor blade group of fully automatable turbine in every stage A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines with approximately the same diameter.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Accelerate the pressure with the amount of combustion gas heat and mass or compressed air heat and division separately + Accelerated fully automatic machined turbine blade group for each stage Various energy storage cycle combined engines with four stages of mating bolt assembly turbines with the same diameter and shape.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Stages of turbine blades that can be accelerated + fully automatic processing with combustion gas heat quantity and mass or compressed air heat quantity and mass separately saved pressure Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines with the same diameter and approximately the same diameter.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines with six stages of mating bolt assembly turbines.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with 7 stages of mating bolt assembly turbines.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Accelerate with split heat stored in combustion gas heat and mass or compressed air heat and mass + Rotor blade group of fully automatable turbine in every stage A variety of energy storage cycle combined engines equipped with eight stages of mating bolt assembly turbines with approximately the same diameter.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Accelerate the pressure with the amount of combustion gas heat and mass or compressed air heat and division separately + Accelerated fully automatic machined turbine blade group for each stage Various energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with augmented ball lifter (2F) + Stages of turbine blades that can be accelerated + fully automatic processing with combustion gas heat quantity and mass or compressed air heat quantity and mass separately saved pressure Various energy storage cycle combined engines equipped with 10 stages of mating bolt assembly turbines with approximately the same diameter and diameter.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines provided with a mating bolt assembly turbine in one stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Produce + Lift and store liquid metal with increased ball lifter (2F) + Accelerate the pressure by dividing and storing combustion gas heat and mass or compressed air heat and mass + Make the rotor blade group of the turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with two stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle coalescing engines equipped with three bolt assembly turbines in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines with eight combined bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines with 10 joint bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape Various energy storage cycle combined engines provided with a single bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle coalescing engines equipped with two bolt assembly turbines in two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with 3 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with six stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines equipped with 7 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines equipped with 9 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle combined engines equipped with a mating bolt assembly turbine as one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle combined engines with two stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle united engines with four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines with two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle united engines with four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy conservation cycle united engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Device (2F) increases the drop + Increases the ball lifter (2F) to lift and store liquid metal + combustion gas heat energy and mass or compressed air heat energy and pressure divided and saved pressure + fully automatic processable turbine blade Various energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise In the device (2F), increase the drop + increase and store the liquid metal in the increase ball lifter (2F) + acceleration with the pressure stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the wing group.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball raiser (2F) + save the heat of combustion gas and mass or compressed air heat and mass separately for pressure + acceleration with fully automatic processing possible with pressure A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass A variety of energy storage cycle combined engines with the same diameter and same shape provided with a fitting bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engines with two stages of mating bolt assembly turbines with the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of each stage with the same diameter of almost the same diameter 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine turbine blade group with the same diameter and shape with the same diameter for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated with heat pressure and pressure divided into heat energy and mass and compressed air heat energy and mass + Various energy preservation cycle coalescing with 3 stages of mating bolt assembly turbines with equal number of buckets of approximately the same diameter as the bucket group of fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycles where four stages of mating bolt assembly turbines are provided with the same size of the rotor blade group of the turbine which can be accelerated + fully-automatically machined by pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with five stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines with the same size of rotor blade group of each stage with the same diameter for acceleration + turbine with pressure divided and stored in heat quantity and mass or compressed air quantity of heat and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with seven stages of bolt assembly turbines, each of which has the same diameter and acceleration as the rotor blade group of each stage with the pressure divided and stored separately for heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 8 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines with 9 joint bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with three stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with six stages of assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with 7 stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of each diameter is the same diameter for each stage and mating bolt assembly turbine 3 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy conservation cycle united engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and pressure divided separately + turbine blade group of turbines with same diameter and same shape for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of the same diameter approximately the same shape every stage 7 mating bolt assembly turbines are provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerated by heat pressure and pressure divided and stored in heat and mass or compressed air heat and mass + Various energy preservation cycle unions in which 8 stages of mating bolt assembly turbines are provided with approximately the same diameter as the moving blade group of a fully automatic machineable turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycles with 9 stages of mating bolt assembly turbines with the same size and approximately the same diameter as the buckets of turbines that can be accelerated + fully-automatically machined with pressure that is stored separately in heat quantity and mass or compressed air quantity and mass. Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy conservation with 10 stages of mating bolt assembly turbines with the same diameter of approximately the same diameter for each stage of the turbine blade group that can be accelerated + fully-automatically processed by heat pressure and pressure divided and stored separately into heat quantity and compressed air heat quantity and mass. Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with an integrated bolt assembly turbine in one stage with the rotor blade group of each stage having approximately the same diameter and acceleration with the pressure divided and stored separately in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines in which the rotor blade group of the turbine has the same diameter and shape with the same size at every stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines equipped with 3 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy conservation cycle combined engines provided in 7 stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle combined engines equipped with 8 stages of mating bolt assembly turbines.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines equipped with an assembly turbine in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage Various energy storage cycle combined engines with two stages of assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use 2.) raise and store the liquid metal + accelerate with the combustion gas heat energy and mass or pressure divided separately into compressed air heat energy and mass + fully automatic machineable turbine blade group of the same diameter approximately the same diameter for every paragraph mating bolt assembly turbine Various energy storage cycle combined engine which was provided in 3 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use 2.) Assembling bolt assembly with the same size of rotor blade of each turbine, which can be machined in all stages, by accelerating and storing liquid metal by pressure + acceleration by pressure divided by heat amount and mass of compressed gas or mass and compressed air. Various energy storage cycle combined engines with turbines provided in four stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use The liquid metal is raised and stored + combustion gas heat quantity and mass or compressed air heat quantity and pressure divided separately and saved by pressure + fully automatic processing is possible with a bucket of turbines capable of fully automatic machining with the same diameter approximately the same diameter for each stage. A variety of energy storage cycle combined engines with five stages of assembly turbines and heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use 2.) Lift and store the liquid metal + accelerate with the combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make the rotor blade group of the turbine approximately the same diameter of each stage with mating bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in six stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use 2.) Lift and store the liquid metal + accelerate with the combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make the rotor blade group of the turbine approximately the same diameter of each stage with mating bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 7 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine is provided in eight stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 10 stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in two stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine is provided in five stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a double bolt assembly turbine is provided in six stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in seven stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine provided in two stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 4 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with fitting bolt assembly turbine in 6 stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in eight stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in 9 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in two stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in 3 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in four stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engine provided in 7 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in eight stages together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in 9 stages with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in 10 stages with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which the heat pump is provided in one stage together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in two stages together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Device (2F) increases the drop + Increases the ball lifter (2F) to lift and store liquid metal + combustion gas heat energy and mass or compressed air heat energy and pressure divided and saved pressure + fully automatic processable turbine blade A variety of energy storage cycle coalescing engines in which a bolt assembly turbine is provided in three stages together with a heat pump, with a group having the same diameter and approximately the same shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise In the device (2F), increase the drop + increase and store the liquid metal in the increase ball lifter (2F) + acceleration with the pressure stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle coalescing engines equipped with four stages of heat turbines and heat pumps with mating bolt assembly, which has the same diameter and diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball raiser (2F) + save the heat of combustion gas and mass or compressed air heat and mass separately for pressure + acceleration with fully automatic processing possible with pressure A variety of energy storage cycle combined engines, in which the rotor blade group has the same diameter and diameter, and the bolt assembly turbine is provided in five stages with the heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass A variety of energy storage cycle combined engines in which fitting bolt assembly turbines and heat pumps are provided in six stages with approximately the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + pressure divided and stored in combustion gas heat quantity and mass or compressed air heat quantity and mass A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in seven stages with approximately the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) is made into rotation direction alternate turbine + power increase ball (2E) is small diameter Accelerate as + heat by combustion gas heat and mass or compressed air by pressure stored separately into mass + fully automatic machineable turbine blade group with the same diameter and substantially the same shape for each stage. Bolt assembling turbine with heat pump 3 Various energy conservation cycle united engines provided in the stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) is made into rotation direction alternate turbine + power increase ball (2E) is small diameter Accelerating as + heat energy and mass of combustion gas or pressure stored separately in heat and air of compressed air + Turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage with a heat pump and a bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 4 stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) is made into rotation direction alternate turbine + power increase ball (2E) is small diameter Accelerating as + heat energy of combustion gas and mass or compressed air heat and mass at pressure divided and saved separately + Turbine blade group capable of fully automatic processing with the same diameter for each stage and heat pump with bolt assembly turbine as heat pump And various energy conservation cycle combined engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) is made into rotation direction alternate turbine + power increase ball (2E) is small diameter Accelerate as + heat by combustion gas heat and mass or compressed air by pressure stored separately in mass + turbine blade group of turbines with the same diameter approximately the same shape for each stage The fitting bolt assembly turbine is provided in six stages with a heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3-stage combustion close to the combustion gas injection temperature + horizontal axis (1 h) is made into rotation direction alternate turbine + power increase ball (2E) is small diameter Accelerating as + heat by combustion gas heat and mass or compressed air by pressure stored separately in mass + turbine blade group of turbines with the same diameter approximately the same shape every stage installed mating bolt assembly turbine with heat pump in 7 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + combustion gas heat quantity Accelerated by mass or pressure divided and stored in compressed air heat and mass + Various energy preservation provided with 8 stages of mating bolt assembly turbine with heat pump with buckets of fully automatic machining possible with the same diameter as the bucket group of fully automatic processable turbine Cycle coalescing agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + combustion gas heat quantity And energy or compressed air heat energy and pressure divided and saved separately + buckets of turbines that can be fully automated and machined with the same diameter approximately the same diameter for each stage, and various types of energy provided with a bolt assembly turbine in 9 stages with a heat pump Preservation cycle union agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + combustion gas heat quantity Various types of turbine blades that can be accelerated and fully automated with a pressure divided and stored as mass or compressed air heat and mass with the same diameter and approximately the same diameter for each stage of the bolt assembly turbine and heat pump provided in 10 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + combustion gas heat quantity A variety of energy storage cycle coalescing engines equipped with an assembly of bolt assembly and a heat pump, with the rotor blade group of the same size and diameter of each section of the acceleration + turbine with pressure equal to mass or compressed air heat and mass and stored separately.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is recovered rapidly with the atmosphere + power increase ball (2E) is driven by an acceleration turbine driven by a small diameter + combustion gas heat quantity A variety of energy storage cycle coalescing engines equipped with a bolt assembly and a turbine assembly with a heat pump in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump as they have substantially the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-up + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic machined turbine blade group of the same diameter for each stage with mating bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-save + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of the turbine which can be fully automatically machined Fit bolt assembled turbine with heat pump Various energy conservation cycle combined engines provided in 9 stages.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Heats up the mating bolt assembly turbine with the same size of rotor blades of the turbine which can be accelerated + fully-automatically processed by the pressure stored separately by rising + stored combustion gas heat and mass or compressed air heat and mass separately The various energy conservation cycle united engines provided in 10 stages.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-up + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass separately + Rotor blade group of the turbine with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Uplifting + acceleration with combustion gas heat quantity and mass or pressure divided separately into compressed air heat quantity and mass + turbine blade group of the turbine with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-up + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processing possible turbine blade group of each stage with the same diameter approximately the same shape Various energy conservation cycle united engines provided in the stage.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-save + Accelerated by the amount of combustion gas heat and mass or compressed air heat and mass separately + Fully automatic processable turbine blade group of the turbine which can be fully automatically machined Fit bolt assembled turbine with heat pump Various energy conservation cycle combined engines provided in 4 stages.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Heats up the mating bolt assembly turbine with the same size of rotor blades of the turbine which can be accelerated + fully-automatically processed by the pressure stored separately by rising + stored combustion gas heat and mass or compressed air heat and mass separately And various energy conservation cycle combined engines provided in 5 stages.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Up-and-up + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass separately + Rotor blade group of the turbine with the same diameter approximately the same shape every stage Various energy conservation cycle union engine.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Uplift and save + acceleration with combustion gas heat and mass or pressure divided and saved to heat or mass of compressed air + turbine blade group of the same diameter in each stage and fitted bolt assembly turbine provided in 7 stages with heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine is provided in eight stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 10 stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in two stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine is provided in five stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a double bolt assembly turbine is provided in six stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and mass separately + accelerate with the pressure that is divided into mass + fully automatic processable turbine blade group with the same diameter and approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in seven stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and heat pump provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + acceleration with the amount of combustion gas heat and mass or compressed air heat and mass separately + acceleration with a pressure that can be fully automated Various energy storage cycle combined engines with mating bolt assembly turbine provided in two stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 4 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with fitting bolt assembly turbine in 6 stages with heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + Accelerated by heat stored in combustion gas heat and mass or compressed air heat and mass + pressure with divided pressure + mass of moving blades of turbine capable of fully automatic processing with the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine and heat pump in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in eight stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in 9 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle combined engine provided in two stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in 3 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in four stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engines provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + mating blade assembly of the turbine with the same diameter approximately the same shape for each stage A variety of energy storage cycle coalescing engine provided in 7 stages with a heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in eight stages together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in 9 stages with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in 10 stages with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which the heat pump is provided in one stage together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + turbine blade group of turbine with same diameter and same shape for every stage for fitting bolt assembly And various energy storage cycle combined engines in which heat pumps are provided in two stages together with thrust bearings, bearings, and a square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + raise and store the liquid metal with the increase ball raising device (2F) + accelerate with the pressure separately stored with combustion gas heat and mass or compressed air heat and mass + fully automatic processing possible A variety of energy storage cycle combined engines, in which the rotating blade group of the turbine has the same diameter and diameter, and the bolt assembly turbine is provided in three stages with the heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + raise and store the liquid metal with the increase ball raising device (2F) + accelerate with the pressure separately stored with combustion gas heat and mass or compressed air heat and mass + fully automatic processing possible A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps with the same size of the rotor blades of each turbine as each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + Ascend and store the liquid metal with the ascending ball ascension device (2F) + Accelerate with the pressure separately stored as combustion gas heat and mass or compressed air heat and mass + Fully automatic processing A variety of energy storage cycle combined engines, in which five stages of mating bolt assembly turbines and heat pumps are provided with the same size and diameter of the moving blades of the possible turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + Raise and store the liquid metal with the increase ball raising device (2F) + Accelerate the pressure of the combustion gas heat quantity and mass or compressed air heat quantity and mass separately save + Turbine blade Various energy storage cycle coalescing engines equipped with fitting bolt assembly turbines and heat pumps in six stages, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + Raise and store the liquid metal with the increase ball raising device (2F) + Accelerate the pressure of the combustion gas heat quantity and mass or compressed air heat quantity and mass separately save + Turbine blade Various energy storage cycle coalescing engines, in which the bolt assembly turbine and heat pump are provided in seven stages with the same diameter and the same diameter in each group.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump in a substantially identical shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 3 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 4 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat quantity and mass or compressed air heat quantity and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape every stage 6 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter for every stage 7 bolt of assembled bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy with the rotating blade group of fully automatic machinable turbines having the same diameter and approximately the same shape for every stage and 8 stages of fitting bolt turbines with heat pumps Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotors of the turbine which can be accelerated + fully-automatically machined by the pressure which is stored separately in heat quantity and mass or compressed air heat quantity and mass with the same diameter and almost same shape in each stage. Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with 10 stages of mating bolt assembly turbines with heat pumps with the same diameter and substantially the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with a bolt assembly turbine with a heat pump and a heat pump with a rotor blade group of approximately the same diameter for every stage with the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbine and heat pump with the rotor blade group of each stage having the same diameter and the same diameter per stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engines with bolt assembly turbines and heat pumps provided in three stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines with four bolt assembly turbines and heat pumps provided in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine provided in 5 stages with heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 6 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in 7 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increased ball lifter (2F) + accelerate with the amount of combustion gas heat and mass or compressed air heat and pressure separately divided + pressure with a pressure that is divided into mass + buckets of fully automatic machineable turbines of the same diameter and diameter Various energy storage cycle coalesced engines equipped with mating bolt assembly turbine in 8 stages with heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase the volume of liquid metal with the increase ball lifter (2F) + accelerate and save the amount of combustion gas heat and mass or compressed air heat and mass separately pressure + fully automatic processing turbine blade group that can be fully automated A variety of energy storage cycle combined engines in which a mating bolt assembly turbine is provided in nine stages together with a heat pump in the same shape.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increases and stores liquid metal with an increase ball lifter (2F) + buckets of turbines that can be accelerated + fully-automatically processed by combustion gas heat quantity and mass or compressed air heat quantity and mass separately divided pressure is equal in diameter from stage to stage A variety of energy storage cycle combined engines in which mating bolt assembly turbines and heat pumps are provided in 10 stages as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine and a heat pump are provided in one stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with the combustion gas heat quantity and mass or compressed air heat quantity and pressure divided and saved pressure + mating blade group of turbine as the same diameter approximately isomorphic to every stage A variety of energy storage cycle combined engines in which an assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Accelerated by combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + Fully automatic machined turbine blade group of the same diameter of each stage and heat capacity of bolt assembly turbine Various energy storage cycle combined engines provided in 8 stages with pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + fully automatic processing turbine blade group of the same diameter for each paragraph is the same diameter almost the same shape mating bolt assembly turbine Various energy storage cycle combined engines provided in 9 stages with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Assembling bolt assembly turbine with the same size of rotor blade group of turbine which can accelerate and fully automatic machining by heat stored in liquid metal and pressure and stored separately by combustion gas heat quantity and mass or compressed air heat quantity and mass Various energy storage cycle united engines provided in 10 stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + set turbine blade group of turbine with the same diameter and same shape every stage 1 stage of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with combustion gas heat energy and mass or compressed air heat energy and mass divided pressure + make turbine blade group of turbine approximately the same diameter in every stage mating bolt assembly turbine 2 stages with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Accelerating at pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass + Various energy of fully assembled turbine blades with heat pump and three stages of heat exchangers with the same size of rotor blade group of all automatically processable turbines. Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various types of rotating blades of the turbine that can be accelerated + fully-automatically machined by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass with the same diameter and substantially the same shape for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas The rotating blade group of the turbine that can be accelerated + fully-automatically processed by the pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass is provided with five stages of mating bolt assembly turbines with heat pumps with the same diameter and approximately the same shape in every stage. Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with heat and mass or compressed air mass and pressure divided and saved with pressure + division of the rotor blade group of the turbine with the same diameter approximately the same shape every stage with six stages of heat pump and heat pump .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + combustion gas Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines and heat pumps with the rotor blade group of each stage having the same diameter and the same diameter for each stage with pressure divided and stored in heat quantity and mass or compressed air heat quantity and mass .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored in the device (2F) + acceleration with pressure divided and stored as heat of combustion gas and mass or amount of compressed air and mass + moving blade group of fully automatic machinable turbine is fitted with the same diameter and approximately same shape for every paragraph Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 8 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + the pressure divided and stored as the amount of combustion gas heat and mass or compressed air heat and mass + the rotating blade group of the turbine capable of fully automatic processing is fitted with the same diameter approximately the same shape A variety of energy storage cycle combined engines in which a combined bolt assembly turbine and a heat pump are provided in nine stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The moving blade group of the turbine that can be accelerated + fully automatic processing by the pressure divided and stored separately by the amount of combustion gas heat and mass or compressed air heat and mass as the apparatus (2F) as rising and storing the liquid metal Various energy storage cycle combined engines with mating bolt assembly turbine and 10 stages of heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in one stage with heat pumps.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with device (2F) + acceleration with combustion gas heat energy and mass or compressed air heat energy and pressure separately stored pressure + turbine blade group of turbines with the same diameter approximately the same shape for each stage mating bolt assembly turbine Various energy storage cycle combined engines provided in two stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engine which provided the turbine with the heat pump in eight stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt A variety of energy storage cycle combined engines, in which an assembly turbine is provided in 9 stages with a heat pump.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage Various energy conservation cycle united engines provided in one stage with   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage And various energy conservation cycle united engines provided in two stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engines with turbines and heat pumps provided in three stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt Various energy storage cycle combined engines with four stages of assembly turbines and heat pumps.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy preservation cycle united engine provided in 6 stages with.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 10 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in 3 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 4 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy preservation cycle united engine provided in 8 stages with.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine Various energy conservation cycle united engines provided in one stage with   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine And various energy conservation cycle united engines provided in two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 4 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 5 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 6 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 7 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and almost same shape for each stage Set the bolt assembly turbine with heat pump in 8 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter of turbine rotor blade group with the same diameter for each stage 9 stages with heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with the same diameter of the same diameter for each stage of the turbine Set the 10 stages with the heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of the turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with same diameter and same shape for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter with the same diameter for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in eight stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines provided in 9 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in 10 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in one stage with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in two stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + Save the liquid metal by the increase with the increase ball raiser (2F) + Compress the solar heat air with compression thermal energy and cold energy + Fully automatic machined turbine blade group of approximately the same diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy + moving blade group of the fully automatable turbine A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression heat and cold heat A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump as they have substantially the same shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engine which provided the turbine with the heat pump in eight stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt A variety of energy storage cycle combined engines, in which an assembly turbine is provided in 9 stages with a heat pump.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage Various energy conservation cycle united engines provided in one stage with   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage And various energy conservation cycle united engines provided in two stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engines with turbines and heat pumps provided in three stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt Various energy storage cycle combined engines with four stages of assembly turbines and heat pumps.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy preservation cycle united engine provided in 6 stages with.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 10 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in 3 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 4 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy preservation cycle united engine provided in 8 stages with.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine Various energy conservation cycle united engines provided in one stage with   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine And various energy conservation cycle united engines provided in two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 4 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 5 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 6 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 7 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and almost same shape for each stage Set the bolt assembly turbine with heat pump in 8 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter of turbine rotor blade group with the same diameter for each stage 9 stages with heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with the same diameter of the same diameter for each stage of the turbine Set the 10 stages with the heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of the turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with same diameter and same shape for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter with the same diameter for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in eight stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines provided in 9 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in 10 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in one stage with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in two stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + Save the liquid metal by the increase with the increase ball raiser (2F) + Compress the solar heat air with compression thermal energy and cold energy + Fully automatic machined turbine blade group of approximately the same diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy + moving blade group of the fully automatable turbine A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression heat and cold heat A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump as they have substantially the same shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engine which provided the turbine with the heat pump in eight stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt A variety of energy storage cycle combined engines, in which an assembly turbine is provided in 9 stages with a heat pump.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage Various energy conservation cycle united engines provided in one stage with   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage And various energy conservation cycle united engines provided in two stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with expansion ball lifter (2F) + Solar heating air compressed and heat produced by heating air + Fully automatic machined turbine blade group of the same diameter almost the same shape for each stage mating bolt assembly Various energy storage cycle combined engines with turbines and heat pumps provided in three stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Rotatable blade group of turbine that can be fully automatically machined with the same diameter approximately the same diameter for every paragraph Mating bolt Various energy storage cycle combined engines with four stages of assembly turbines and heat pumps.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Solar heat air compressed and heat produced by cold air + Turbine blade group capable of fully automatic processing is fitted with the same diameter and almost same shape for each stage Various energy storage cycle combined engine which provided bolt assembly turbine with heat pump in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy preservation cycle united engine provided in 6 stages with.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Solar heating air compressed and heat produced by heating + Cooling turbine group of rotors with the same diameter and diameter for each stage The various energy conservation cycle united engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 10 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in 3 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 4 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 5 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engine provided in six stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lift device (2F) + produce solar heat air with compression thermal energy and cold energy + fully automatic machined turbine blade group of the same diameter for each stage with bolt assembly turbine with heat pump Various energy conservation cycle combined engines provided in 7 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy preservation cycle united engine provided in 8 stages with.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine Various energy conservation cycle united engines provided in one stage with   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade of turbine that can be fully automatically machined with the same diameter approximately the same shape for every stage Heat pump for bolt assembly turbine And various energy conservation cycle united engines provided in two stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 4 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 5 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 6 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbines capable of fully automatic processing with the same diameter and diameter for each stage Various energy storage cycle combined engines provided in 7 stages with pumps.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and almost same shape for each stage Set the bolt assembly turbine with heat pump in 8 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter of turbine rotor blade group with the same diameter for each stage 9 stages with heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with the same diameter of the same diameter for each stage of the turbine Set the 10 stages with the heat pump Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine assembly of rotating bolt group of turbine with the same diameter and the same shape every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group with the same diameter and shape with the same size for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of the turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heat air for compression thermal and cold heat + Install turbine blade group of the same diameter approximately with the same size for each stage of a turbine Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air with compression thermal and cold heat + Install turbine blade group with same diameter and same shape for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + Produce solar heating air for compression thermal and cold heat + Install turbine blade group of the same diameter with the same diameter for each stage of the turbines Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in eight stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines provided in 9 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in 10 stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in one stage with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with a lifting device (2F) + saturate the solar heating air with compression thermal energy and cold energy + make the moving blade group of the turbine the same diameter for each paragraph and make fitting bolt assembly and heat pump a thrust bearing or Various energy storage cycle combined engines installed in two stages with bearings and square turbine outer box (77a).   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + Save the liquid metal by the increase with the increase ball raiser (2F) + Compress the solar heat air with compression thermal energy and cold energy + Fully automatic machined turbine blade group of approximately the same diameter A variety of energy storage cycle coalesced engines equipped with a mating bolt assembly turbine and a heat pump in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy + moving blade group of the fully automatable turbine A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save the liquid metal in the increase with the increase ball lifter (2F) + saturate the solar heating air with compression heat and cold heat A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with a heat pump as they have substantially the same shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines with six stages of assembly turbines and heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop in the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + saturate the solar heating air with compression thermal energy and cold energy A variety of energy storage cycle combined engines in which an assembly turbine is installed in seven stages with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in eight stages with compression air temperature and cold energy production + fully automatic processing of turbine blades of the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines and heat pumps in nine stages, with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 10 stages of mating bolt assembly turbines and heat pumps, with the same size and diameter as the buckets of turbines capable of compression thermal and cold heat production + fully automatic processing of heated air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and substantially the same shape in each stage, and a bolt assembly turbine is provided in one stage with a heat pump.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and diameter, and the bolt assembly turbine is provided in two stages with a heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines in which the heating air is compressed thermal and cold, and the blades of the fully automatable turbine are of the same diameter and substantially the same shape for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with compression bolt assembly turbines with heat pumps and four stages with heat pumps, with compression air temperature and cold energy production + fully automatic processing of turbine blades capable of fully automatic processing.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with five stages of mating bolt assembly turbines and heat pumps with the same size and diameter as the moving blade group of turbines capable of compression heating and cold energy production + fully automatic processing of heating air.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and fitted bolt assembly turbines are provided in six stages with heat pumps.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in eight stages with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in 9 stages with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines, in which 10 stages of mating bolt assembly turbines and heat pumps are provided with the rotor blades of the processable turbine having the same diameter and diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the blade assembly has the same diameter and diameter, and the bolt assembly turbine is installed in one stage with the heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines, in which the rotating blade group has the same diameter and diameter, and the bolt assembly turbine is provided in two stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various kinds of bolt assembly turbine provided with heat pump in 3 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + compression of heat and cold energy of solar heating air + turbine blade group of turbines capable of fully automatic machining with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in six stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including bolt assembly turbine and heat pump provided in 7 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in eight stages with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in 9 stages with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines, in which 10 stages of mating bolt assembly turbines and heat pumps are provided with the rotor blades of the processable turbine having the same diameter and diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the blade assembly has the same diameter and diameter, and the bolt assembly turbine is installed in one stage with the heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines, in which the rotating blade group has the same diameter and diameter, and the bolt assembly turbine is provided in two stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with equipment (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 4 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine And various energy conservation cycle combined engines provided in 5 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for every stage, and the bolt assembly turbine is provided in six stages with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is installed in seven stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 8 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 9 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle united engines provided in 10 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine rotor blade group of the same diameter for each stage and 1 step with bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 2 stages of bolt assembly turbine with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in three stages together with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with heat pumps with the same size and diameter as the moving blades of turbines capable of processing.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the rotor blade group has the same diameter and diameter, and the bolt assembly turbine is provided in six stages with the heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the rotor blade group has the same diameter and diameter, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Compress solar heating air with compressed thermal energy and cold energy + Fully automatic processable turbine blade group with the same diameter and substantially the same shape for each stage Various types of bolt assembly turbine provided with heat pump in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and store liquid metal + Compression of heat and cold energy of solar heating air + Rotor blade group of turbine capable of fully automatic machining with the same diameter and almost same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Uplift and save liquid metal + Compression of heat and cold energy of solar heating air + Temperature adjustment of buckets of turbines capable of fully automatic processing with the same diameter for each paragraph Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group having the same diameter and shape with the same diameter for each stage Various energy storage cycle combinations including a bolt assembly turbine and a heat pump in one stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + saturating solar heating air with compression thermal energy and cold energy + turbine blade group of the same diameter and shape with the same diameter for every stage Various energy storage cycle coalescing in which bolt assembly turbine is provided in two stages with heat pump organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in three stages together with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in four stages together with heat pumps with the same size and diameter as the moving blade group of processable turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Fully automatic A variety of energy storage cycle combined engines in which mating bolt assembly turbines are provided in five stages together with heat pumps with the same size and diameter as the moving blades of turbines capable of processing.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the rotor blade group has the same diameter and diameter, and the bolt assembly turbine is provided in six stages with the heat pump.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines in which the rotor blade group has the same diameter and diameter, and the bolt assembly turbine is provided in seven stages with the heat pump.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with equipment (2F) + Compress solar heat air with compression heat and cold heat + Fully automatic machined turbine blade group of the same diameter for each paragraph and fit bolt assembly turbine with heat pump 8 Various energy conservation cycle united engines provided in the stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Equipment (2F) ascends and stores liquid metal + manufactures solar heating air with compression thermal energy and cold energy + turbine blade group of the turbine that can be fully automatically machined with the same diameter approximately the same shape every stage with the heat pump and heat pump Various energy conservation cycle combined engines provided in 9 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat storage of liquid metal with equipment (2F) + Solar heating air compression and heat and cold heat production + Turbine blade group capable of fully automatic processing with the same diameter of each section and heat pump for bolt assembly turbine The various energy conservation cycle united engines provided in 10 stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the rotor blade group of the turbine has the same diameter and the same shape for each stage, and the bolt assembly turbine is provided in one stage with the heat pump Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + solar heating air is compressed and heat and cold are produced + the moving blade group of the turbine has the same diameter and the same shape every stage, and the bolt assembly turbine is provided in two stages with the heat pump Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + saturate solar heating air with compression thermal energy and cold energy + fully automatic machineable turbine blade group with the same diameter and diameter for each paragraph Various energy storage cycle combined engines provided in 3 stages with pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with increased ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + turbine blade group of turbine that can be fully automatic machined with the same diameter approximately the same shape every stage Various energy storage cycle combined engines provided in 4 stages with heat pumps.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increased ball lifter (2F) + create solar heat air with compression thermal energy and cold energy + turbine blade group of turbine that can be fully automatically processed with the same diameter and the same diameter for each stage Various energy storage cycle combined engine which was provided in 5 stages with a heat pump.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 6 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase storage of liquid metal with increase ball lifter (2F) + saturate solar heating air with compression heat and heat + create turbine blade group of the same diameter almost same shape every stage 7 stages with heat pump with heat pump The various energy conservation cycle united engines provided in.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use Liquid heat rising and storage + Solar heating air compressed heat and cold heat production + Heat retention turbines Various stages of energy conservation cycle coalescence engine provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use Lifting and storing liquid metal) + saturating solar heating air with compression thermal energy and cold energy + various energy preservation cycle combinations where the rotor blade group of multistage turbines has the same diameter and shape with the same diameter and is approximately 9 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use Lifting and storing the liquid metal) + Compress solar heating air with compression thermal energy and cold energy + Various energy storage cycle coalescing with 10 stages of mating bolt assembly turbines with the same diameter of almost the same diameter for each stage organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use Lifting and storing the liquid metal) + Compress the solar heating air with compressed thermal energy and cold energy + Various energy storage cycle coalescing engines equipped with a mating bolt assembly turbine in one stage with the rotor blade group of the turbine with the same diameter and shape .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + water jet (79U) that rapidly recovers CO 2 with the atmosphere and use A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines with the same diameter and approximately the same shape for each stage of the turbine blade group having the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by augmented ball lifter (2F) + Heat retention turbine A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by augmented ball lifter (2F) + Multistage turbine A variety of energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by augmented ball lifter (2F) + Multistage turbine A variety of energy storage cycle coalescing engines equipped with five stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines with six stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   Turbine driven superheated steam injection temperature is made a three-stage combustion water jet (79U) close to the combustion gas injection temperature + Quick recovery utilization of CO 2 with the atmosphere + Uplift storage of liquid metal with augmented ball lifter (2F) + Turbine motion A variety of energy storage cycle combined engines with seven stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the wing group.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by augmented ball lifter (2F) + Heat retention turbine A variety of energy storage cycle combined engines with eight stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of three-stage combustion + Rapid recovery utilization of CO 2 with the atmosphere + Increase and save liquid metal with increase ball lifter (2F) + Heavyer A variety of energy storage cycles that aim at 1000 times the amount of power generation by providing the rotating blade group of the turbine equipped with a heat retention device in vacuum direction by accelerating the material in vacuum direction and setting the fitting bolt assembly turbine in 9 stages with the same diameter and approximately the same diameter Coalition agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by augmented ball lifter (2F) + Multistage turbine A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines, each of which has the same diameter and diameter as the moving blade group.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO 2 with atmosphere and rapid recovery utilization + augmented ball lifter (2F) to rise and store liquid metal + turbine A variety of energy storage cycle combined engines with one set of mating bolt assembly turbines with one row of moving blades and the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a three-stage combustion water jet (79U) close to the combustion gas injection temperature + Quick recovery utilization of CO 2 with the atmosphere + Uplift storage of liquid metal with augmented ball lifter (2F) + Turbine motion Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines, each of which has the same diameter and diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with four stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with 6 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with 7 stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines equipped with eight stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage Various energy storage cycle combined engines equipped with 10 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage Various energy storage cycle combined engines equipped with fitting bolt assembly turbine in one stage with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines equipped with two stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 3 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with four stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with six stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage A variety of energy storage cycle combined engines with seven stages of mating bolt assembly turbines with approximately the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with eight stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage A variety of energy storage cycle combined engines with the same diameter and same shape provided with a fitting bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with two stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines with four stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with 6 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines with seven stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines equipped with eight stages of mating bolt assembly turbines in a substantially identical shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with 10 stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines equipped with a mating bolt assembly turbine in one stage as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with two stages of mating bolt assembly turbines as roughly identical.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + heat retention turbine The blade assembly has the same diameter and almost same shape for every stage, and three stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Set blade blades of multistage turbine with same diameter and same shape for every stage 4 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Solar heat air compressed and heat produced by heat + cold + air turbine blade group of multistage turbine with same diameter and same shape for every stage 5 stages of mating bolt assembly turbine provided A variety of energy storage cycle combined engines, in which the rotating blade group of the turbine equipped with the heat retention device has the same diameter and approximately the same diameter in each stage, and is a bolt assembly turbine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade group of the same diameter approximately with the same shape for each stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage 7 types of bolt assembly turbine provided in 7 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with five stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with six stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group of each stage with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage of turbine blade group with the same temperature for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat up and store liquid metal with device (2F) + Compress solar heat air with compression heat and cold heat + Heat retention turbine Set the bucket blade group with the same diameter and the same shape for every stage Various energy preservation provided with 3 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with four stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine and with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 5 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multi-stage turbine for each paragraph Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal energy and cold energy + A variety of energy storage with six stages of mating bolt assembly turbines with the same diameter of the rotor blade group of the turbine with the same diameter Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal in the device (2F) + Solar heat air compression and heat and cold heat production + Turbine bucket group with the same diameter and shape with the same diameter for each stage Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air with compression thermal energy and cold energy + heat retention turbine The rotor blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Raise and store liquid metal with the expansion ball lifter (2F) + Produce solar heating air with compression thermal energy and cold energy + Set the rotor blade group of multistage turbine with the same diameter and the same shape every stage 9 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Install rotor blade group of multi-stage turbine with same diameter and same shape every stage 10 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Liquid fuel is raised and stored by the increase ball lifter (2F) + Solar heating air is compressed and heat and cold are produced + Turbine blade group has the same diameter and diameter for each stage, and a bolt assembly turbine is provided in one stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage, heat retention and cooling of solar heating air and heat retention of liquid heating air + compression of heat and air by solar heating air.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with 10 stages of bolt assembly turbines, each of which has the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with a bolt assembly turbine in one stage with the rotor blades of the turbine having the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold heat + heat retention turbine Set the bucket blade group with the same diameter and the same shape every stage Various energy preservation provided with 8 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 9 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Heat the solar heating air for compression thermal and cold heat + Various energy with 10 stages of mating bolt assembly turbines with the same diameter of the moving blade group of multistage turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal and cold energy + Various energy storage where the rotor blade group of the turbine has the same diameter and almost same shape for every stage Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold energy + turbine bucket group with same diameter and almost same shape for every stage Various energy storage cycles provided with two stages of mating bolt assembly turbine Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + heat retention turbine The blade assembly has the same diameter and almost same shape for every stage, and three stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Set blade blades of multistage turbine with same diameter and same shape for every stage 4 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Solar heat air compressed and heat produced by heat + cold + air turbine blade group of multistage turbine with same diameter and same shape for every stage 5 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade group of the same diameter approximately with the same shape for each stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage 7 types of bolt assembly turbine provided in 7 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with five stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with six stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group of each stage with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage of turbine blade group with the same temperature for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat up and store liquid metal with device (2F) + Compress solar heat air with compression heat and cold heat + Heat retention turbine Set the bucket blade group with the same diameter and the same shape for every stage Various energy preservation provided with 3 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with four stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine and with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 5 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multi-stage turbine for each paragraph Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal energy and cold energy + A variety of energy storage with six stages of mating bolt assembly turbines with the same diameter of the rotor blade group of the turbine with the same diameter Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal in the device (2F) + Solar heat air compression and heat and cold heat production + Turbine bucket group with the same diameter and shape with the same diameter for each stage Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air with compression thermal energy and cold energy + heat retention turbine The rotor blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Raise and store liquid metal with the expansion ball lifter (2F) + Produce solar heating air with compression thermal energy and cold energy + Set the rotor blade group of multistage turbine with the same diameter and the same shape every stage 9 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Install rotor blade group of multi-stage turbine with same diameter and same shape every stage 10 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Liquid fuel is raised and stored by the increase ball lifter (2F) + Solar heating air is compressed and heat and cold are produced + Turbine blade group has the same diameter and diameter for each stage, and a bolt assembly turbine is provided in one stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage, heat retention and cooling of solar heating air and heat retention of liquid heating air + compression of heat and air by solar heating air.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with 10 stages of bolt assembly turbines, each of which has the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with a bolt assembly turbine in one stage with the rotor blades of the turbine having the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold heat + heat retention turbine Set the bucket blade group with the same diameter and the same shape every stage Various energy preservation provided with 8 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 9 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Heat the solar heating air for compression thermal and cold heat + Various energy with 10 stages of mating bolt assembly turbines with the same diameter of the moving blade group of multistage turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal and cold energy + Various energy storage where the rotor blade group of the turbine has the same diameter and almost same shape for every stage Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold energy + turbine bucket group with same diameter and almost same shape for every stage Various energy storage cycles provided with two stages of mating bolt assembly turbine Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + heat retention turbine The blade assembly has the same diameter and almost same shape for every stage, and three stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Set blade blades of multistage turbine with same diameter and same shape for every stage 4 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Solar heat air compressed and heat produced by heat + cold + air turbine blade group of multistage turbine with same diameter and same shape for every stage 5 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade group of the same diameter approximately with the same shape for each stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage 7 types of bolt assembly turbine provided in 7 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with five stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with six stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group of each stage with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage of turbine blade group with the same temperature for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines and a rotor blade group of approximately the same diameter and diameter, and fitted bolt assembly turbines in eight stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with 9 stages of mating bolt assembly turbines, with heating air and compression thermal and cold heat production + multistage turbine rotor blade groups of the same diameter and with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with compression air and compression of heat and cold heat + moving blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines, in which heating air is compressed thermal and cold heat production + turbine rotor blade groups have the same diameter and shape, and the bolt assembly turbine is provided in one stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage, and bolt assembly turbines provided in two stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Heat up and store liquid metal with device (2F) + Compress solar heat air with compression heat and cold heat + Heat retention turbine Set the bucket blade group with the same diameter and the same shape for every stage Various energy preservation provided with 3 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with four stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine and with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 5 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multi-stage turbine for each paragraph Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal energy and cold energy + A variety of energy storage with six stages of mating bolt assembly turbines with the same diameter of the rotor blade group of the turbine with the same diameter Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal in the device (2F) + Solar heat air compression and heat and cold heat production + Turbine bucket group with the same diameter and shape with the same diameter for each stage Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air with compression thermal energy and cold energy + heat retention turbine The rotor blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Raise and store liquid metal with the expansion ball lifter (2F) + Produce solar heating air with compression thermal energy and cold energy + Set the rotor blade group of multistage turbine with the same diameter and the same shape every stage 9 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Install rotor blade group of multi-stage turbine with same diameter and same shape every stage 10 stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Liquid fuel is raised and stored by the increase ball lifter (2F) + Solar heating air is compressed and heat and cold are produced + Turbine blade group has the same diameter and diameter for each stage, and a bolt assembly turbine is provided in one stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage, heat retention and cooling of solar heating air and heat retention of liquid heating air + compression of heat and air by solar heating air.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines with the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with 10 stages of bolt assembly turbines, each of which has the same diameter as the rotor blade group of multistage turbine with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with a bolt assembly turbine in one stage with the rotor blades of the turbine having the same diameter and shape with the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold heat production + heat retention turbines with the same diameter and shape as the rotor blade group and with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with four stages of mating bolt assembly turbines with compression air temperature and cold air production for heating air + rotor blades of multi-stage turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines with compression air heating and cold energy production + multistage turbine rotor blade groups of approximately the same diameter for each stage and fitted bolt assembly turbines in five stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight A variety of energy storage cycle coalescing engines that are equipped with six stages of mating bolt assembly turbines, with heating air and compression thermal energy and cold energy production + turbine rotor blade groups of approximately the same diameter for each stage.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stage combustion close to combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift preservation of liquid metal by increase ball raising device (2F) + Sunlight Various energy storage cycle coalescing engines with compression air heating and cold heat production + turbine rotor blade groups of approximately the same diameter for each stage and mating bolt assembly turbines provided in seven stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold heat + heat retention turbine Set the bucket blade group with the same diameter and the same shape every stage Various energy preservation provided with 8 stages of mating bolt assembly turbine Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Produce solar heating air with compression thermal energy and cold energy + Various energy with 9 stages of mating bolt assembly turbines with the same diameter of the rotor blade group of multistage turbine with the same diameter Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise and store liquid metal with the device (2F) + Heat the solar heating air for compression thermal and cold heat + Various energy with 10 stages of mating bolt assembly turbines with the same diameter of the moving blade group of multistage turbine Preservation cycle union agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + Manufacture solar heat air with compression thermal and cold energy + Various energy storage where the rotor blade group of the turbine has the same diameter and almost same shape for every stage Cycle coalescing agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Uplift and store liquid metal with the device (2F) + manufacture solar heat air with compression thermal energy and cold energy + turbine bucket group with same diameter and almost same shape for every stage Various energy storage cycles provided with two stages of mating bolt assembly turbine Coalition agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + manufacture solar heat air by compression heat and cold heat + heat retention turbine The blade assembly has the same diameter and almost same shape for every stage, and three stages of mating bolt assembly turbine are provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + Compress solar heat air with compression heat and cold heat + Accelerate heavier material in vacuum direction to increase power generation with moving blades of a turbine equipped with heat retention device Various energy conservation cycle combined engines that aim at 1000 times power generation by providing four stages of mating bolt assembly turbines with the same diameter and approximately the same shape for each stage.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Solar heat air compressed and heat produced by heat + cold + air turbine blade group of multistage turbine with same diameter and same shape for every stage 5 stages of mating bolt assembly turbine provided Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with an increase ball lifter (2F) + manufacture solar heat air with compression heat and cold heat + turbine blade group of the same diameter approximately with the same shape for each stage Various energy conservation cycle union engine.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with expansion ball lifter (2F) + Manufacture solar heat air with compression thermal energy and cold energy + Various types of turbine blade group having the same diameter and almost same shape for each stage 7 types of bolt assembly turbine provided in 7 stages Energy Conservation Cycle Coalition Agency.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Various energy conservation cycle combined engines equipped with 8 stages of mating bolt assembly turbines with the same diameter and almost same shape for each stage of compression warmth and cold heat production + heat retention turbine bucket group with rising up and saving + solar heating air.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy storage cycle combined engines with 9 stages of mating bolt assembly turbines where the rotor blades of the multistage turbine have the same diameter and the same diameter for each stage.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy storage cycle combined engines that set up 10 stages of mating bolt assembly turbines with the same diameter of almost the same diameter for each stage of the moving blade group of multistage turbines.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy conservation cycle combined engines equipped with a bolt assembly turbine in one stage with the rotor blades of the turbines having the same diameter and the same diameter for each stage.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy conservation cycle combined engines equipped with two stages of mating bolt assembly turbines with the same size and the same diameter for each stage of turbine rotor blade group with compression thermal and cold energy production of solar heating air compressed and stored.   Configuration and method to make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature and make the water jet (79U) of three-stage combustion + power increase sphere (2E) ++ liquid metal with increase sphere lifter (2F) Various energy conservation cycle combined engines equipped with three stages of mating bolt assembly turbines with the same diameter and approximately same shape for each stage of compression thermal energy and cold heat production + heat retention turbine rotor blade group with rising and storing + rising solar energy.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines with the same size of the rotor blades of the multistage turbine and the same diameter for each stage.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines with the rotor blades of the multistage turbine having the same diameter and the same diameter for every stage.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Various energy conservation cycle combined engines equipped with six stages of mating bolt assembly turbines with the rotor blades of the turbine having the same diameter and the same diameter for each stage.   Turbine drive superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + configuration and method of accelerating power increase ball (2E) + liquid metal with increase ball lift device (2F) Uplift and save + Compression of heat and cold energy of solar heating air + Various energy saving cycle combined engines with 7 stages of mating bolt assembly turbines with the same size and almost the same diameter of turbine bucket group.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines equipped with eight stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with fitting bolt assembly turbine in one stage with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with two stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines with four stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage Various energy storage cycle combined engines equipped with 6 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Heat retention turbine bucket group same every stage A variety of energy storage cycle combined engines with seven stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with eight stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 10 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage A variety of energy storage cycle combined engines with the same diameter and same shape provided with a fitting bolt assembly turbine in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with two stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with 3 stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with four stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage Various energy storage cycle combined engines with six stages of mating bolt assembly turbines with the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Rotor blade group of multi-stage turbine every stage A variety of energy storage cycle combined engines with seven stages of mating bolt assembly turbines with approximately the same diameter and shape.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines equipped with eight stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines with 9 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with 10 stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph Various energy storage cycle combined engines equipped with fitting bolt assembly turbine in one stage with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat recovery and divide and save it as calorific pressure and mass pressure to drive each turbine + Turbine blade group of turbine same every paragraph A variety of energy storage cycle combined engines equipped with two stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with four stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with five stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of solar heating air by compression heat and divide and save it as calorific pressure and mass pressure to drive each turbine + Same diameter of turbine rotor blade group per paragraph A variety of energy storage cycle combined engines with 7 stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat and divide and store it into calorific pressure and mass pressure to drive each turbine + Turbine blade with heat retention device Various energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat and divide and store it into calorific pressure and mass pressure to drive each turbine + Turbine blade with heat retention device Various energy storage cycle coalescing engines equipped with 9 stages of mating bolt assembly turbines, each group having the same diameter and about the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat and divide and store it into calorific pressure and mass pressure to drive each turbine + Turbine blade with heat retention device Various energy storage cycle combined engines equipped with 10 stages of mating bolt assembly turbines, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat and divide and store it into calorific pressure and mass pressure to drive each turbine + Turbine blade with heat retention device Various energy storage cycle coalescing engines equipped with a mating bolt assembly turbine in one stage with the group having the same diameter and the same diameter.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifter (2F) + Recover heat of air heated by sunlight by compression heat and divide and store it into calorific pressure and mass pressure to drive each turbine + Turbine blade with heat retention device Various energy storage cycle coalescing engines equipped with two stages of mating bolt assembly turbines, each group having the same diameter and approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop as much as possible with the device (2F) + raise and store the liquid metal with the increase ball rise device (2F) + accelerate with heat pressure and divided pressure into mass velocity + heat retention turbine blade group equal diameter for each paragraph A variety of energy storage cycle combined engines with three stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + Raise and store the liquid metal with the increase ball raising device (2F) + Accelerate with the pressure divided and saved to heat rate and mass velocity A variety of energy storage cycle combined engines with four stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + Raise and store the liquid metal with the increase ball raising device (2F) + Accelerate with the pressure divided and saved to heat rate and mass velocity Various energy storage cycle combined engines equipped with five stages of mating bolt assembly turbines with approximately the same diameter.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop as much as possible with the device (2F) + Raise and save the liquid metal with the increase ball raising device (2F) + Accelerate the pressure with divided heat energy rate and mass velocity + Equal diameter of turbine blade groups per stage A variety of energy storage cycle combined engines equipped with six stages of mating bolt assembly turbines as roughly identical.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the head as much as possible with the device (2F) + raise and store the liquid metal with the increase ball raising device (2F) + accelerate with the pressure divided and divided into heat rate and mass velocity A variety of energy storage cycle combined engines equipped with 7 stages of mating bolt assembly turbines in the same shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of 3 steps combustion + CO 2 recover with CO 2 atmosphere + ++ Increase ball storage with increase ball lifter (2F) + heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of 3 steps combustion + CO 2 recover with CO 2 atmosphere + ++ Increase ball storage with increase ball lifter (2F) + heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of 3 steps combustion + CO 2 recover with CO 2 atmosphere + ++ Increase ball storage with increase ball lifter (2F) + heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of 3 steps combustion + CO 2 recover with CO 2 atmosphere + ++ Increase ball storage with increase ball lifter (2F) + heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   Make the turbine drive superheated steam injection temperature close to the combustion gas injection temperature + Make the water jet (79U) of 3 steps combustion + CO 2 recover with CO 2 atmosphere + ++ Increase ball storage with increase ball lifter (2F) + heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with eight stages of mating bolt assembly turbines with the same diameter and shape with the same diameter for each stage, heat retention and cooling of solar heating air and heat retention of liquid heating air + compression of heat and air by solar heating air.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate The rotor blade group of the turbine equipped with the heat retention device which makes the rotor blade group of the turbine with the same diameter approximately the same shape with the pressure saved by division into mass speed and has the same diameter. Various energy storage cycle combined engines equipped with four bolt assembly turbines in four stages.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + heat retaining turbine Various blades having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engines provided in 8 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engines provided in one stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Acceleration with heat flow rate and mass speed divided + pressure + Turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engine provided in 3 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine A variety of energy storage cycle united engines with four stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engine provided in six stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat flow rate and mass speed separately saved + pressure + turbine turbine blade group with the same diameter approximately the same shape for each stage 7 mating bolt assembly turbine Various energy conservation cycle united engines provided in the stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retaining turbine blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in two stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group is provided with 3 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + temperature retaining turbine blade group is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine blade group is provided with five stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with six stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with seven stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and almost same shape for each stage, install bolt assembly turbine in one stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the heat energy rate and mass pressure separately divided pressure + turbine blade group of turbines with the same diameter and the same shape for each paragraph 9 mating bolt assembly turbines are provided in 9 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the pressure divided and stored in heat energy rate and mass velocity + install 10 sets of mating bolt assembly turbines with the same size of the rotor blade group of the turbine with the same diameter Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + moving blade group of turbine with same diameter of each stage with same diameter for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in 3 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass rate separately + pressure with turbine blade group as same diameter as stage for each stage + various types of bolt assembly turbine provided in 4 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + pressure with turbine blade group as same diameter and same shape for every stage Various types of bolt assembly turbine provided in 5 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group with the same diameter and same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided with pressure + heat retention turbine blade group is fitted with the same diameter and the same shape every stage A variety of energy storage cycle coalescing engines equipped with three bolt assembly turbines in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop by the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the pressure divided and stored with heat rate and mass velocity A variety of energy storage cycle combined engines equipped with six bolt assembly turbines in six stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat amount rate and the mass speed divided separately Various energy storage cycle combined engines with 7 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engines provided in 8 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engines provided in one stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Acceleration with heat flow rate and mass speed divided + pressure + Turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engine provided in 3 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine A variety of energy storage cycle united engines with four stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engine provided in six stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat flow rate and mass speed separately saved + pressure + turbine turbine blade group with the same diameter approximately the same shape for each stage 7 mating bolt assembly turbine Various energy conservation cycle united engines provided in the stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retaining turbine blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in two stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group is provided with 3 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + temperature retaining turbine blade group is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine blade group is provided with five stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with six stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with seven stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and almost same shape for each stage, install bolt assembly turbine in one stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the heat energy rate and mass pressure separately divided pressure + turbine blade group of turbines with the same diameter and the same shape for each paragraph 9 mating bolt assembly turbines are provided in 9 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the pressure divided and stored in heat energy rate and mass velocity + install 10 sets of mating bolt assembly turbines with the same size of the rotor blade group of the turbine with the same diameter Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + moving blade group of turbine with same diameter of each stage with same diameter for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in 3 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass rate separately + pressure with turbine blade group as same diameter as stage for each stage + various types of bolt assembly turbine provided in 4 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + pressure with turbine blade group as same diameter and same shape for every stage Various types of bolt assembly turbine provided in 5 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group with the same diameter and same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided with pressure + heat retention turbine blade group is fitted with the same diameter and the same shape every stage A variety of energy storage cycle coalescing engines equipped with three bolt assembly turbines in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop by the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the pressure divided and stored with heat rate and mass velocity A variety of energy storage cycle combined engines equipped with six bolt assembly turbines in six stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat amount rate and the mass speed divided separately Various energy storage cycle combined engines with 7 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   Turbine driven superheated steam injection temperature is made a water jet (79U) of 3 stages combustion close to the combustion gas injection temperature + turbine is provided in 46 stages to accelerate the liquid lead alloy downward + increase ball lifter (2F) In various energy storage cycle combined engines, as the rotor blade group of the turbine is made to have the same diameter and the same diameter for each paragraph with the pressure divided and stored at the heat energy rate and the mass velocity to raise and save the liquid metal.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engines provided in 8 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine The various energy conservation cycle united engines provided in 9 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 10 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engines provided in one stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball lifter (2F) + Acceleration with heat flow rate and mass speed divided + pressure + Turbine blade group with the same diameter and almost same shape for each stage Various energy conservation cycle united engines provided in the stage.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat flow rate and mass speed divided by pressure + Heat retention turbine The rotor blade group has the same diameter and isomorphous for every paragraph. Various energy conservation cycle combined engine provided in 3 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine A variety of energy storage cycle united engines with four stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increase ball lifter (2F) + Acceleration with heat pressure and mass speed separately stored pressure + Rotor blade group of multi-stage turbine with same diameter of each stage and fitting bolt assembly turbine Various energy conservation cycle united engines provided in 5 stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat pressure and mass velocity divided + pressure with the pressure divided into turbines + Turbine blade group having the same diameter and diameter for each stage Various energy conservation cycle combined engine provided in six stages.   Turbine drive superheated steam injection temperature to a three-stage combustion water jet (79U) close to the combustion gas injection temperature + configuration and method to accelerate the power increase bulb (2E) + intake air path length lens and solar thermal thermal cooling Manufacturing + Lifting and storing liquid metal with increased ball raising device (2F) + Acceleration with heat flow rate and mass speed separately saved + pressure + turbine turbine blade group with the same diameter approximately the same shape for each stage 7 mating bolt assembly turbine Various energy conservation cycle united engines provided in the stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retaining turbine blade group is provided with 8 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in two stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group is provided with 3 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + temperature retaining turbine blade group is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine blade group is provided with five stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each paragraph Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with six stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + heat retention turbine The rotor blade group is provided with seven stages of mating bolt assembly turbines with the same diameter and shape. Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and almost same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and almost same shape for each stage, install bolt assembly turbine in one stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with same diameter and same shape for every stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed divided by pressure + moving blade group of multi-stage turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the heat energy rate and mass pressure separately divided pressure + turbine blade group of turbines with the same diameter and the same shape for each paragraph 9 mating bolt assembly turbines are provided in 9 stages Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store the liquid metal with the lifting device (2F) + accelerate with the pressure divided and stored in heat energy rate and mass velocity + install 10 sets of mating bolt assembly turbines with the same size of the rotor blade group of the turbine with the same diameter Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting and storing liquid metal with lifting device (2F) + acceleration with thermal energy rate and mass velocity divided by pressure + turbine blade group of turbine with the same diameter and substantially same shape per stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lifting liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + moving blade group of turbine with same diameter of each stage with same diameter for each stage Various energy conservation cycle union engine.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each stage Various kinds of bolt assembly turbines provided in 3 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass rate separately + pressure with turbine blade group as same diameter as stage for each stage + various types of bolt assembly turbine provided in 4 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat load rate and mass speed separately + pressure with turbine blade group as same diameter and same shape for every stage Various types of bolt assembly turbine provided in 5 stages Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided + pressure + turbine turbine blade group with the same diameter and approximately same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group with the same diameter and same shape for each paragraph Energy Conservation Cycle Coalition Agency.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 8 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 9 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in 10 stages.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in one stage.   Turbine driven superheated steam injection temperature is made close to the combustion gas injection temperature. Three-stage combustion water jet (79U) + CO2 is rapidly recovered and used together with the atmosphere + various cargo ships are driven by multiple water jets (79U) + increase sphere Lift and store liquid metal with lifting device (2F) + acceleration with heat energy rate and mass velocity divided by pressure + retaining turbine equipped with heat retaining device with the same size of rotor blade group of each stage and fitting bolt assembly turbine Various energy conservation cycle combined engines provided in two stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided with pressure + heat retention turbine blade group is fitted with the same diameter and the same shape every stage A variety of energy storage cycle coalescing engines equipped with three bolt assembly turbines in three stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines equipped with four stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + save and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat rate and mass velocity divided by pressure + make the blade group of multi-stage turbine approximately the same diameter in every stage Various energy storage cycle combined engines with five stages of mating bolt assembly turbines.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop by the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the pressure divided and stored with heat rate and mass velocity A variety of energy storage cycle combined engines equipped with six bolt assembly turbines in six stages.   Turbine driven superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + intake air path length lens and sunlight heat and cold heat production + heat retention increase sphere rise Increase the drop with the device (2F) + raise and store the liquid metal with the increase ball lifter (2F) + accelerate with the heat amount rate and the mass speed divided separately Various energy storage cycle combined engines with 7 stages of bolt assembly turbines.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Lift liquid metal with device (2F) + accelerate with heat energy rate and mass pressure divided by pressure + heat retaining turbine blade group with the same diameter and substantially same shape every stage Various types of bolt assembly turbine provided in 8 stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 9 stages of mating bolt assembly turbines with the same diameter and substantially the same shape Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 10 stages of mating bolt assembly turbines with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups having the same diameter and shape with the same diameter for each stage Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy with the bolt assembly turbine provided in two stages Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + thermal insulation turbine blade group with the same diameter and approximately same shape for each stage 3 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + move blade group of multi-stage turbine with the same diameter of each stage and 4 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure with division pressure of multistage turbine + 5 stages of mating bolt assembly turbine with same diameter of each stage of multistage turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat pressure and mass speed separately + pressure of divided parts of turbine + equal number of rotor blades of each stage with 6 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + pressure with turbine blade group as same diameter as stage for each stage 7 mating bolt assembly turbine is provided in 7 stages Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Various energy storage cycle coalescing engines equipped with three stages of mating bolt assembly turbines with the same diameter and shape as the rotor blade group has the same diameter for each paragraph. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage 4 mating bolt assembly turbines are provided in 4 stages organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure divided by pressure + separate blades of multi-stage turbines with the same diameter and diameter for each stage; organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with 6 stages of mating bolt assembly turbines .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines with seven stages of mating bolt assembly turbines with the same size of the same diameter for each stage of turbine blade group with the same size for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with eight stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and acceleration.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 9 stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with 10 stages of mating bolt assembly turbines with the same diameter and shape as the moving blade group of multi-stage turbine with the pressure divided and stored at mass speed and divided + stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with a bolt assembly turbine installed in one stage with the rotor blade group of the turbine having the same diameter and approximately the same shape for each stage with pressure divided and stored at mass speed and mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly and turbine assembly with the same size and approximately the same diameter for each stage of acceleration + turbine blade group with pressure divided and stored at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise Rise liquid metal in device (2F) + accelerate with heat energy rate and mass pressure separately stored pressure + heat retention turbine Various blades with the same diameter and shape as the rotor blade group in each stage and three sets of bolt assembly turbines provided Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with 4 stages of mating bolt assembly turbines with the same diameter and substantially the same shape every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + moving blade group of multi-stage turbine is provided with five stages of mating bolt assembly turbine with the same diameter and substantially the same shape for each stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is raised and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass speed + various types of turbine blade groups of approximately the same diameter in each stage with six stages of mating bolt assembly turbines provided in six stages Energy Conservation Cycle Coalition Agency.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + CO2 is rapidly recovered and used together with the atmosphere + various ships are driven by multiple water jets (79U) + increased sphere rise The liquid metal is ascended and stored by the device (2F) + accelerated by heat pressure and divided pressure into mass velocity + turbine blade group with the same diameter and substantially the same shape for each stage Various energy provided with 7 stages of mating bolt assembly turbine Preservation cycle union agency.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the increase ball lifter (2F) + accelerate with heat transfer rate and mass speed separately + heat retention turbine blade group is the same diameter for each paragraph with the same diameter and approximately same shape 8 stages of mating bolt assembly turbine Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter and diameter for each stage 9 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Increase and store liquid metal with an increase ball lifter (2F) + accelerate with heat transfer rate and mass speed divided by pressure + split blade group of multi-stage turbine with the same diameter approximately every stage 10 stages of mating bolt assembly turbine The various energy conservation cycle united engines provided in.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Lift and store liquid metal with the expansion ball lifter (2F) + accelerate with the pressure divided and stored with heat quantity velocity and mass velocity + Make the rotor blade group of the turbine approximately the same diameter in every stage to make the mating bolt assembly turbine one stage Various energy conservation cycle united engines provided.   Turbine drive Superheated steam injection temperature to water jet (79U) of three-stage combustion close to combustion gas injection temperature + Acceleration of liquid metal downward by acceleration turbine + Various ships driven by multiple water jets (79U) + Uplift and store liquid metal with the expansion ball lifter (2F) + acceleration with heat flow rate and mass speed divided + pressure + turbine turbine blade group with the same diameter and substantially same shape for every stage Various energy conservation cycle union engine.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + heat retention turbine Various energy conservation cycle coalescing engines provided with 8 stages of mating bolt assembly turbines with the same diameter and almost the same shape as the rotor blade group. .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + accelerate with heat pressure and mass pressure separately stored pressure + multistage turbine blade group of the same diameter approximately the same shape for every stage Various energy storage cycle unions provided with 9 stages of mating bolt assembly turbine organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lift and store liquid metal + Accelerate with heat pressure and mass pressure separately stored pressure + Multi-stage turbine blade group of the same diameter approximately with the same diameter for each stage Various energy storage cycle unions with 10 stages of mating bolt assembly turbines organ.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) Lifting and storing liquid metal + acceleration with heat energy rate and mass velocity divided by pressure + moving blades of turbines with the same diameter and diameter for each stage Various energy saving cycle coalescing engines provided with a bolt assembly turbine in one stage .   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + a horizontal axis (1 h) to be a rotational direction alternate turbine + a rising ball lifter (2F) A variety of energy storage cycle coalescing engines equipped with two stages of bolt assembly turbines, each of which has the same diameter as the turbine blade group and has the same diameter for each stage.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with three stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with four stages of mating bolt assembly turbines with the same size and approximately the same diameter for each stage of the moving blade group of multistage turbine with acceleration and pressure stored separately at mass speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with five stages of bolt assembly turbines, each of which has the same diameter and shape as the moving blade group of multistage turbines, and is accelerated by the pressure divided and stored at mass speed and speed.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate A variety of energy storage cycle coalescing engines equipped with six stages of bolt assembly turbines, each of which has the same diameter and shape as the rotor blade group of the turbine and has the same diameter and diameter.   The turbine drive superheated steam injection temperature is made a water jet (79U) of three-stage combustion close to the combustion gas injection temperature + Rapid recovery utilization of CO2 with the atmosphere + Uplift storage of liquid metal with increase ball lifter (2F) + Heat rate Various energy storage cycle coalescing engines equipped with 7 stages of mating bolt assembly turbines with acceleration and pressure divided and stored at mass speed and with the turbine blade group having the same diameter and shape.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from the inside by providing three stages of mating bolt assembly turbines in which the moving blade group of a turbine that can be fully automatically processed has the same diameter and approximately the same diameter per stage. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from the inside by providing three stages of mating bolt assembly turbines with the same size and diameter as the moving blade group of a turbine that can be fully automated. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from three internal stages by providing a mating bolt assembly turbine with 10 stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for turbines with fully automatic processing possible. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from one another by providing the mating bolt assembly turbine with one stage of the turbine blade group of a turbine capable of fully automatic processing and having the same diameter and approximately the same diameter per stage. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations internally by three stages by providing two stages of mating bolt assembly turbines with the buckets of turbines that can be fully automatically machined and with the same diameter and diameter as each stage. ) A variety of energy storage cycle united engines equipped.   A water jet (79 U) that heats superheated steam from multiple locations at an optimum distance from three internal stages by providing three stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for turbines with fully automatic processing. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from three internal stages by providing four stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for turbines with fully automatic processing. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations internally by three stages by providing five stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for turbines with fully automatic processing. ) A variety of energy storage cycle united engines equipped.   A water jet (79 U) that heats superheated steam from multiple locations internally with three stages of combustion bolted turbine assemblies with six stages of mating bolt assembly turbines with the same diameter and approximately the same diameter for turbines with fully automatic processing possible. ) A variety of energy storage cycle united engines equipped.   A water jet (79U) that heats superheated steam from multiple locations at an optimum distance from the inside by providing three stages of mating bolt assembly turbines with the same size and diameter as the moving blade group of a turbine that can be fully automatically machined. ) A variety of energy storage cycle united engines equipped.   The turbine blade cross section (4A) is provided 25 times and solar thermal heating air is compressed heat exchange compressed air and superheated steam are manufactured and stored compressed heats superheated steam from the inner circumference in a single-stage combustor Superheated steam in a two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is doubled to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4A) is used to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross-section (4A) is used to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by one stage combustor with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 5 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 6 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 7 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 8 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Injection propulsion output generation method of water suction injection driven by two types of turbine rotational outputs provided with 9 times the turbine blade cross section (4A) Various energy storage cycle combined engines.   The turbine blade cross section (4A) is provided 10 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple burners Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 11 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 12 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 13 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 14 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 15 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 16 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   A 17-fold turbine blade cross section (4A) is used to compress solar heat air by compression heat exchange, manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 18 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 19 times to compress solar heat air by compression heat exchange production and compressed air production and storage increase to superheat steam from the inner circumference by two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 20 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   A 21-fold turbine blade cross section (4A) is used to compress solar heat air by compression heat exchange to produce superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensing the turbine blade cross section (4A) 22 times and heating the solar heating air into compression heat exchange manufacturing superheated steam and compressed air, increasing storage and heating superheated steam from the inner circumference with a single stage combustor Superheated steam with a dual stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4A) is provided 24 times and solar thermal heating air is compressed heat exchange compressed air manufacturing and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference in the one-stage combustor overheated steam in the two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 25 times and solar thermal heating air is compressed heat exchange compressed air manufacturing and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference with a single-stage combustor Superheated steam with a two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is doubled to make solar heating air compressed and heat exchange compressed air heat and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor overheated steam in the two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4B) is used to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross section (4B) to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 5 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 6 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 7 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the single stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 8 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 9 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple burners Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 10 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 11 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 12 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 13 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 14 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 15 times and the solar heating air is compressed to produce heat exchange compressed air, compressed heat is produced by superheated steam and compressed air, and the superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 16 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 17 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 18 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 19 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 20 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 21 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensing the turbine blade cross section (4B) 22 times and compressing the solar heat air into compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor Two-stage multiple combustor superheated steam Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4B) is provided 24 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4C) 25 times and compress solar heat air by compression heat exchange superheated steam and compressed air manufacture and increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is doubled to make solar heating air compressed and heat exchange compressed air heat produced and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference with a single stage combustor Superheated steam with a dual stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4C) to make solar heating air compressed and heat exchange compressed air manufacturing and storage compressed air increased storage and heating overheated steam from the inner circumference with a single-stage combustor Overheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross-section (4C) is used to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 5 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensing the turbine blade cross section (4C) by 6 times and compressing the solar heat air into compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 7 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 8 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 9 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 10 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 11 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 12 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   A 13-fold turbine blade cross-section (4C) is used to compress solar heat air to produce compressed heat exchange superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 14 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 15 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 16 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 17 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 18 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   19-fold turbine blade cross-section (4C) to produce solar heating air compressed and heat exchange heat produced by compressed air heat exchange with compressed air and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with a two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 20 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 21 times to compress solar heat air by compression heat exchange production and compressed air manufacture and increase storage superheated steam from the inner circumference with a single-stage combustor Superheated steam with a two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4C) 22 times and compress solar heat air by compression heat exchange superheated steam and compressed air manufacture and increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4C) is provided 24 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4D) 25 times and compress solar heat air by compression heat exchange superheated steam and compressed air manufacture and increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is doubled to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor by two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4D) is used to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by one stage combustor with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross-section (4D) is used to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference with a one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4D) by 5 times and compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, save and increase superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 6 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 7 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 8 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 9 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Superheated steam in the two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 10 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 11 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 12 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 13 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 14 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is set 15 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 16 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   A 17-fold turbine blade cross-section (4D) is used to compress solar heat air to produce compressed heat exchange superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 18 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference in the one-stage combustor overheated steam in the two-stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   19-fold turbine blade cross section (4D) is used to compress solar heat air by compression heat exchange with superheated steam and compressed air manufactured and stored, and increase superheated steam from the inner circumference with a single-stage combustor. Superheated steam with two-stage multiple combustors. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 20 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   21-fold turbine blade cross-section (4D) to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4D) 22 times and compress solar heat air by compression heat exchange superheated steam and compressed air manufacture and increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4D) is provided 24 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 25 times and solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross-section (4E) is doubled to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4E) to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross-section (4E) is used to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air. Save and increase superheated steam from the inner circumference with a single-stage combustor. Superheated steam with two-stage multiple combustors. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 5 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 6 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 7 times and the solar heating air is compressed to produce heat exchange compressed air and compressed air. The heat is stored from the inner circumference in the one-stage combustor. Superheated steam is heated in the two-stage multiple combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 8 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 9 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 10 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 11 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 12 times and the solar heating air is compressed and heat exchange compressed heat exchange compressed steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   A 13-fold turbine blade cross-section (4E) is used to compress solar heat air to produce compressed heat exchange superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single-stage combustor Superheated steam with two-stage multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 14 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 15 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 16 times and the solar heating air is compressed to produce heat exchange compressed air and compressed air. The heat is stored from the inner circumference in the one-stage combustor. Superheated steam is heated in the two-stage multiple combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 17 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 18 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 19 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is 20 times larger and the solar heating air is compressed to produce heat exchange compressed air and compressed air. The heat is stored from the inner circumference in the one-stage combustor. Superheated steam is heated in the two-stage multiple combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 21 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensing the turbine blade cross section (4E) 22 times and compressing the solar heating air into compressed heat exchange manufacturing superheated steam and compressed air, increasing storage and heating overheated steam from the inner circumference with a single stage combustor Superheated steam with a dual stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference by the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4E) is provided 24 times and solar thermal heating air is compressed heat exchange compressed air manufacturing and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference with a single stage combustor Superheated steam with a dual stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 25 times and solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross-section (4F) is doubled to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Three-fold turbine blade cross-section (4F) to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, superheated steam is heated from the inner circumference in the one-stage combustor Two-stage multiple combustor superheated steam Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross-section (4F) is used to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference by one stage combustor with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 5 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided six times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference by two stages of multiple burners. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 7 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 8 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor by two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 9 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor Two-stage multiple combustor superheated steam Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 10 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 11 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 12 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured, stored and increased, and superheated steam is heated from the inner circumference in the first stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   13 times of turbine blade cross section (4F) to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air Increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Four-fold turbine blade cross section (4F) is used to compress solar heat air by compression heat exchange, manufacture superheated steam and compressed air, increase storage, and heat superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is set 15 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor. Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 16 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 17 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 18 times to compress solar heat air by compression heat exchange superheated steam and compressed air are manufactured and stored, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   19 times of turbine blade cross section (4F) to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air Increase storage superheated steam from inner circumference with one stage combustor Superheated steam with two stages multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 20 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 21 times to compress solar heat air by compression heat exchange and manufacture superheated steam and compressed air, and increase storage by heating superheated steam from the inner circumference with a single stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Condensed turbine blade cross section (4F) 22 times to compress solar heat air by compression heat exchange superheated steam and compressed air manufacture and increase storage superheated steam from the inner circumference with one stage combustor Superheated steam with two stages multiple combustors Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 23 times and the solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured, stored and increased, and the superheated steam is heated from the inner circumference in the one-stage combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   The turbine blade cross section (4F) is provided 24 times and solar heating air is compressed and heat exchange compressed heat exchange steam and compressed air are manufactured and stored increased by heating the superheated steam from the inner circumference with a single stage combustor Superheated steam with a dual stage multiple combustor Various energy storage cycle united engines that heat from the outer circumference and increase heating from over several locations inside the superheated steam in a three-stage multiple combustor, suck and inject water in front of suction, and suction and spray further water.   Air heated by solar heat by solar heat to suction compression high temperature, heat recovered by air heated by solar heat by compression heat recovery unit (2C) Heated compressed superheated steam propellant + compressed air oxidizer as fuel injection combustion heat exchange cooling combustion Water gas (79 U) is divided into a large amount of combustion gas heat energy + mass Drive water jet (79 U) at a large volume super high speed injection of air such as CO2 at a large volume and forward CO2 etc. atmosphere mixed with suction jet seawater high speed dissolved forward A variety of energy storage cycle coalescing engines that attract and jet seawater and aim at 10 times the speed of existing ships.