JP2011069207A - Various energy conservation cycle combined engine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain power generation capacity by a metal ball mercury gravity geothermal turbine which is 23,000 times or the like greater than by an existing steam turbine. <P>SOLUTION: In opposed metal ball mercury gravity geothermal power generation, three kinds of opposed metal ball mercury gravity geothermal turbines are driven respectively by vacuum acceleration+overheated steam acceleration+compressed air acceleration of metal balls and mercury to increase the power generated by the turbine drive with an atmospheric constant-speed, constant-volume power 23,000 times or the like that of the existing steam turbine and an increased drop of 10-1,000 m or the like as vertically downward gravity acceleration. The operation of the serial metal ball mercury gravity geothermal power generation allows to anybody to easily cooperate with spread of various automobiles or various ships driven by inexpensive metal ball mercury gravity geothermal power storage generation batteries, spread of all-electric homes and electrification of plants driven by electricity, and the like. Consequently, zero fuel cost, zero CO2 emission, zero temperature rise of seawater, and increased growth of seaweed, coral and fishes by hastened natural phenomena are attained, whereby the existing thermal and nuclear power generation is abolished to prevent the global heating. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention speeds up the natural phenomenon when the cause of global warming is a rise in CO2 and seawater temperature of 7 degrees, and dissolves CO2 into the deep sea water intake etc. together with the atmosphere in the same way as the natural phenomenon. The natural phenomenon of the world is accelerated at all the world's gravity power stations, the supply of nutrients is expanded to the world's seas, and the ability to digest CO2 such as seaweeds and corals is increased infinitely, such as tens of thousands of forests, and fish in the food chain The maximum contact speed is as high as possible, the bubbles are small in diameter, the contact area is maximized, the maximum acceleration of the earth is gravitational acceleration, the maximum heat is sunlight or geothermal, the best resource is mercury, and the geothermal heating When the heat production of the compression is performed by the gravity drive heat pump of air 28a + metal sphere and mercury, heat production is possible with no fuel cost. Therefore, the metal sphere mercury gravity heat production metal sphere mercury gravity facing turbine 8M is used, and the compressed air is used. Each driven by heat and mass As a genus mercury gravity facing heat quantity turbine 8K, a metal ball mercury gravity facing mass turbine 8K, and a metal ball mercury gravity facing vacuum turbine 8K, a geothermal air heater 2z is inserted into a well-known boring machine drilling hole, The geothermal heating air 28D is collected and compressed to around 700 degrees by a turbine-driven heat pump 1G, and another air 28a for geothermal heating is heated to around 500 degrees by a compression heat recovery device 2C, and compressed by a heat pump 1G to 1200. Repeated heat production before and after, driving two types of heat turbine and mass turbine, seawater temperature rise 0CO2 exhaust 0 fuel cost 0, infinite power generation amount and heat and cold recovery amount, CO2 etc. of exhaust air It is related to the geothermal power generation technology that dissolves in deep sea water intake, etc., and shifts to the best turbine for experiments to speed up natural phenomena.

  Opposite all blade impeller turbine 8K3 types, metal sphere mercury gravity vacuum acceleration drive, metal sphere mercury gravity calorie acceleration drive and metal sphere mercury gravity mass acceleration drive, metal spheres (including alloys, platinum spheres, gold spheres, lead spheres)・ Tungsten balls, steel balls, tantalum balls, molybdenum balls, cast iron balls, silver balls, etc., metal balls and mercury are injected with a mercury injection pump 6Z such as 400MPa, vacuum gravity acceleration + superheated steam 50 calorie acceleration + compressed air 28a Mass gravitational acceleration, increase of rolling contact rotation power of metal balls and mercury sprayed on turbine blades, driving process of 3 kinds of all blade impeller turbine 8K turbine, 1 to 12 turbines connected horizontally with horizontal axis 16A As a rolling contact of metal spheres and mercury, the same diameter, same shape, same length, multistage turbine, atmospheric pressure, same speed, same volumetric power, kg weight m / sec. The amount of power generated by silver, the amount of heat generated by compressed air, the amount of heat using vacuum, and the use of three types of all-blade propeller turbines 8K are driven. The generator 1 and the heat pump 1G are driven on both sides of the turbine to drive the three-type all blade impeller turbine facing turbine 8K. In the process, mass turbine exhaust, metal spheres, and mercury are used to cool the calorific turbine exhaust, and in the process of maximizing the use of gravity, geothermal, surface tension, and resources, a huge amount of CO2 is generated as ice production power and cooling power. It is related to the metal ball mercury gravity geothermal power generation technology of horizontally connected multi-stage turbine, which is the best turbine for infinite geothermal power generation experiment, including ice production and sales, with the majority of compressed air mass output.

  The rise in sea surface temperature of thermal nuclear power generation is said to have no impact on the environment, but if China continues to grow 10% for 100 years, the sea surface temperature rise in the sea near Japan will exceed 1000 times, so there will be no impact. Conversely, CO2 in seawater is released into the atmosphere, and the concentration of CO2 increases greatly. Many sea surface temperatures of 35 to 50 degrees appear. Sea ice, heavy rain, and wind speed increase by 10 times to 300m / sec. As the sea level rises to 77m, land and sea food approaches 0, and there is a background where humanity is extinct. In Mimasaka City, Okayama Prefecture, a tornado occurred, causing damages of 370 million yen. Ten years later, the sea area rising by 7 degrees doubled, but damage from typhoons, seasonal winds, heavy rains, and tornadoes increased. Various gravity such as solar power generation and geothermal power generation driven by metal sphere mercury gravity, assuming that the increase in acceleration is more than 100 times and that Japan may become the world's largest disaster-affected country, making it zero thermal power generation in the existing world For power generation, it is necessary to prevent droughts, torrential rains, sea level rise, typhoons, seasonal winds, tornadoes, and to prevent the extinction of mankind.

  Since the unit of output and power is kg weight m / sec, equal weight x speed, the best engine theoretically generates a rotating output by accelerating gravitational acceleration of heavy substances, but there is a background that there is no trace of thought. Therefore, gravity power generation including mercury with the best consumption of resources, mercury, liquid lead, with the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec, is approximately 230,000 times that of the existing steam turbine power generation.・ Liquid bismuth ・ Liquid tin ・ Liquid cadmium ・ Liquid indium ・ Liquid gallium ・ Liquid zinc ・ Liquid thallium etc. As a result, the work rate is greatly increased only by increasing the gravitational acceleration rather than the input that increases the head at low speed, and as an output that adds heat production with zero fuel cost, the number of turbines + the head increases to 1000 m or more as much as possible. There is a background that can increase the output. The maximum acceleration on the earth is almost infinite in gravitational acceleration. Theoretical best turbine gravity power generation with seawater temperature rise 0, CO2 exhaust 0 and fuel cost 0 As near to infinity, power generation driven by rolling contact turbines containing water and mercury Airplanes and ships that are important for weight reduction are driven by gravity, including mercury, and heat and cold are collected and used as a means of leaving limited resources to descendants. In addition, there is a background in which low-cost power storage battery drive and electric drive global warming prevention can be obtained, such as various types of automobiles and various types of electric drives, primes of various ships, primes of fully electrified houses, and primes of factory electrification.

  The expectation is that if China continues to grow at 10% for 50 years, the rise in seawater temperature will be 32 times the current level, and the Japanese seasonal wind will be 50-80 m / sec. Concerns about the start of ghost towns around 80% of large Japanese companies that provide the prospect of Prime Minister Koizumi again with the fear that employment will continue to spread to a similar world due to the destruction of greenery. We need wisdom to make a chance. Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, and started prototyping at the contract of the Okayama Regional Invention Center in 1963, and continued prototyping myself, but engine prototyping is very difficult . Therefore, in February 1982, we started requesting cooperation from a large number of large domestic companies, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. It was found that there were so many fatal defects in the existing engine that it was impossible to improve the invention. In 1997, the company opened its homepage in 1997 and applied for a patent for improving one of the defects. With the cooperation of the former president, for example, gravitational solar thermal power generation and gravitational geothermal power generation drive the generator and heat pump at zero fuel cost, drive the turbine near to infinity, extremely low-cost production turbine, metal sphere mercury With gravity solar power generation such as gravity drive and gravity geothermal power generation, I would like to shift to the best experimental turbine power generation by setting the atmospheric pressure, the same speed, and the same volumetric power to around 23,000 times that of the existing steam turbine power generation.

There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, and US Pat. No. 6,263,664. Many of the above-mentioned background technologies have been improved, and the following patent document 2 theoretical best engine invention process invention and experiment In the invention that aims at the best, let's experiment with liquid metal gravity power generation to generate 1 to 23,000 times that of steam turbine power generation. Let's experiment with water gravity power generation to generate power 1700 times that of steam turbine power generation. Let's experiment with near-infinite warm and cold production with gravity-driven heat pumps using solar and geothermal heat as seeds. Liquid metal gravity power generation, water gravity power generation, coated metal sphere water gravity power generation, metal sphere water gravity power generation, metal sphere mercury gravity power generation, 10 times the amount of power generation CO2 exhaustion 0 of the existing world Let's make it prime, electric drive electrified house prime and factory electrification prime. Let the combustion of limited resources, such as fossil fuels, remain to the offspring with the minimum necessary. Let's speed up natural phenomena at all gravity power plants, increase seaweeds, etc., and make CO2 digestive capacity tens of thousands of times that of forests. Etc.

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  At existing thermal power plants in the world, CO2 increases in global warming acceleration and sea surface temperature rises 7 degrees Celsius by 1000 times in 100 years, and so on. The natural phenomenon of supplying nutrients to the sea-cooled seabed in the winter in the North Sea, etc. is made impossible in stages, phytoplankton, seaweeds, corals, etc. are drastically reduced, and the food chain dramatically reduces fish foods The number of underwater foods is drastically reduced and droughts, torrential rains, typhoons and seasonal winds are increased 10 times in 100 years. For example, typhoon and seasonal winds are 300m / sec. In order to increase the danger of human extinction, there is a problem to prevent global warming and postpone human extinction, and burning a large amount of fossil fuel will cause global warming and depletion of resources. The natural phenomenon of fossil fuel combustion is minimized, and it is left as a descendant and the natural phenomenon is accelerated by supplying CO2, oxygen, nitrogen, etc. to the seabed, sea surface, etc., and phytoplankton, seaweeds, corals and fishes are proliferated. There is a problem that the seawater temperature rises by 7 degrees and 0CO2 exhaust becomes 0.

When a heat pump for heat production is driven by a metal sphere mercury gravity turbine, it becomes a challenge of infinite production with zero fuel cost for heat (compressed air calorie etc.) and cold heat (compressed air mass etc.), by gravity solar power generation and gravity geothermal power generation, Solar and geothermal and heat production equipment heat pumps bring the production of hot and cold heat to infinity, and limited petroleum resources are not used as CO2, but are used as the minimum necessary resources, leaving them to their descendants and the earth Prevents global warming, prevents droughts, heavy rains, sea level rise, typhoons, seasonal winds and tornadoes, and melts and mixes CO2 atmosphere of mass turbine exhaust into deep ocean water, etc. Accelerate natural phenomena to supply nutrients such as oxygen and nitrogen, increase phytoplankton, seaweeds, corals, kelp, fish, etc. In addition, the natural phenomenon of the North Sea will be expanded, and the existing thermal power plants in the existing world will be completely abolished in various gravitational power generations. Electrified house prime, factory electrification prime, hot and cold use prime, generate seawater temperature rise 0, CO2 exhaust 0 and fuel cost 0, prevent global warming, postpone human extinction, metal sphere mercury gravity solar thermal turbine And metal sphere mercury gravity geothermal turbines, etc., to bring electricity and hot and cold production volumes close to infinity, and respond to all demands for hot (compressed air calorie pressure) and cold (compressed air mass pressure), High speed expansion, dredging, torrential rain, sea level rise, typhoon, seasonal wind and tornado are prevented.

  CO2 exhaust 0 Seawater temperature rise 0 Fuel cost 0 full moving blade propeller turbine, for example, metal ball mercury gravity driven solar power generation or geothermal power generation by full moving blade propeller turbine, atmospheric pressure, same speed, same volume work kg kg m The power generation per second is about 23,000 times that of the existing steam turbine, which is 10 times the power generation in the existing world. Driven factory electrification prime and full electrification residential prime, existing nuclear power plants in the world are totally abolished CO2 exhaust 0 sea surface temperature rise 0 fuel cost 0 etc., CO2 is dissolved in deep ocean water intake as turbine exhaust cold with the atmosphere Accelerate the natural phenomenon in the cold regions of the North Sea Supply CO2 and other atmospheric air to the world's seabed, reduce the global warming by reducing the atmospheric use of CO2 and other plants by 10,000 times that of forests, and use seagrasses and corals To increase the food of increased humanity the fish in a large food chain, to prevent drought and torrential rains and rising sea levels and typhoons and monsoon and a giant of a tornado, etc., it has the effect of postponing the human race extinct.

Explanatory drawing of metal sphere mercury gravity bite series vacuum turbine 8M (Example 1) Explanatory drawing of the bite series heat turbine 8M bite series mass turbine 8M (Example 2) Explanatory drawing of the geothermal air heater 2z (Example 3)

  Embodiments and examples of the invention will be described with reference to the drawings, but the same names or reference numerals are given to portions that are substantially the same as those of the embodiments and examples and the description, and redundant description will be omitted. Omitted as much as possible, and the characteristic parts and the lack of explanation will be added and explained sequentially. The idea is explained with hypothetical figures for the very difficult brain theory best engine invention and to clearly explain the intended place and expectation, but the correct answer is the hypothetical figure of the theoretical best engine as an experimental figure. It is not limited to. The idea that seems to be the best is duplicated in many applications, the idea is selected and used according to the application, and the claim is selected to be used according to multiple applications. In order to reduce the number of application claims that become enormous as the results of the application are interchanged.

  The opposed full blade impeller metal sphere mercury gravity vacuum turbine 8K shown in FIG. 1 has three types of internal vacuum acceleration turbines 8K, ie, vacuum acceleration, heat acceleration, and mass acceleration. 2 are provided vertically in multiple stages, and can be connected to and disconnected from 1 to 12 horizontally by the horizontal shaft 16A in FIG. In the process of driving the gravity vacuum turbine 8K, the metal sphere and mercury are elevated and stored at the uppermost position by the increasing sphere raising device 2F, and accelerated by the mercury vacuum pump 6Z400MPa etc. by the injection vacuum accelerating turbine driving gravity acceleration part 1g. The gravity vacuum turbine 8K is driven repeatedly to drive the multi-stage turbine, and the generator 1, heat pump 1G, compression heat recovery unit 2C, air heat exchanger 2X, and water heat exchanger 2Y are driven on the horizontal shaft 16A. It is possible to jointly generate power with a heat acceleration turbine and a mass acceleration turbine, and in the combined power generation, a metal ball mercury gravity solar power generation with zero fuel cost will challenge the infinite increase in power generation, thermal and cold production. We will use a metal sphere mercury gravity vacuum acceleration turbine 8K to prevent global warming.

The opposition bouncer metal ball mercury gravity vacuum turbine 8K aiming for the best experiment is provided with a thrust bearing 80a for supporting thrust and weight, a bearing 80, and a gravity acceleration unit 1g for accelerating the metal ball and mercury, and the generator 1 and heat pump 1G are installed. It is provided on both sides of the horizontal shaft 16A and is driven outside the turbine outer box 77a, and the opposed ballwheel metal sphere mercury gravity vacuum turbine 8K is driven by the acceleration of the gravity of the mercury sphere of the mercury injection pump 6Z by acceleration of gravitational acceleration in vacuum. The maximum speed of the metal sphere and mercury by the gravitational acceleration in vacuum, with the same diameter and the same shape and the same length, can be installed interchangeably, enabling a 1 to 120 stage turbine, and the atmospheric pressure, the same speed, and the same volume work kg As the generation of rolling contact rotation output, m / second is set to a power generation amount of about 23,000 times that of the existing steam turbine power generation, and is injected into the turbine blade cross section 4X having a cross sectional area of 1 to 26 times the existing turbine blade cross sectional area. , In the process of air, the opposed vacuum turbine 8K exhaust is cooled by mercury and metal spheres (mercury heat exchanger 2Z) and (cold condenser 2H) exhaust air 28a driven by the opposed mass turbine 8K, and is evacuated by the air extractor 51. , Metal spheres and mercury are stored at the top of the sphere rising device 2F, and are used for preserving, generating seawater temperature 0CO2 exhaust 0 fuel cost 0, and reducing the amount of existing thermal nuclear power generation to 0. Use mercury gravity vacuum accelerated power generation.

  In the metal sphere mercury gravity facing heat quantity turbine 8K and the metal sphere mercury gravity facing mass turbine 8K two types of power generation in FIG. 2, each of them is vertically arranged in the turbine outer box 77a in one to a plurality of stages, and two types are provided alternately or close to each other. The horizontal shaft 16A can be connected to and disconnected from 1 to 12 units horizontally, and can be easily replaced with a multistage turbine having the same diameter and the same shape and length. In the process of driving the mercury gravity facing mass turbine 8L, the increasing ball rising device 2F stores the metal sphere and mercury whose heat turbine driving temperature rises at the top of the mass turbine, and stores the metal sphere and mercury at 400 MPa by the mercury injection pump 6Z. Compressed air control valve 24A open compressed air 28a mass acceleration of 400MPa, etc., metal ball mercury gravity facing mass turbine 8K injection drive, metal sphere The compressed air 28a is heated with mercury to increase the volume and output, and the metal sphere and mercury with a lowered temperature are injected with the mercury injection pump 6Z to open the superheated steam control valve 25, and the metal with 50 calories of superheated steam such as 400 MPa. Accelerate the sphere and mercury to drive the calorie turbine 8K where the temperature of the metal sphere and mercury rises, and the increase sphere riser 2F raises and stores the metal sphere and mercury that rises in the calorie turbine drive temperature at the top of the mass turbine. The mass turbine 8K drive is repeated, and an unlimited multistage metal sphere mercury gravity facing geothermal turbine 8K power generation.

The horizontal ball 16A of the metal ball mercury gravity facing mass turbine 8K and the metal ball mercury gravity facing mass turbine 8K aiming at the best experiment are equipped with the generator 1, the heat pump 1G compression heat recovery device 2C, etc. on both sides of the turbine outer box 77a. Drive and provide thrust bearing 80a and bearing 80 that support thrust and weight, and the gravity acceleration part 1g that accelerates the metal sphere and mercury to drive, and the gravitational acceleration addition by the gravity acceleration part 1g makes the maximum speed of the metal sphere and mercury , Turbine blade cross section with 1 to 26 times the existing turbine blade cross-sectional area, with the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec. In order to increase the rolling contact rotation output of the large blade surface with increased strength, the counter calorie turbine 8K exhaust is cooled by the counter mass turbine 8K driving water, metal balls, and exhaust air 28a in the exhaust process. During the cooling process, the exhaust air 28a cools and recovers the cool air with the cool heat condenser 2H, and then cools the exhaust heat after cooling into the deep sea water intake. The natural phenomenon speeds up and phytoplankton, seaweeds and corals To increase the food of human beings such as fish through the food chain, and to increase the speed of natural phenomena to the world sea level, to make the metal sphere mercury gravity geothermal power.

In the process of driving, the mass turbine is driven by a metal sphere and mercury driven by a calorie turbine, and in the process of driving, the compressed air 28a approaching absolute 0 degree is heated by the metal sphere and mercury to increase the volume and output. Cooling metal spheres and mercury into low-temperature metal spheres and mercury, lowering the temperature of the metal spheres and mercury by driving the low-temperature metal spheres and mercury to drive the mass turbine, and driving the mass turbine with the metal spheres and mercury rising in temperature In this way, the metal sphere and the mercury are circulated to be cooled, and the heat quantity turbine 8K and the mass turbine 8K are provided in multiple stages as much as possible alternately or close to each other. Cooling with a metal bulb (mercury heat exchanger 2Z) and (cold heat condenser 2H) exhaust air 28a, the heat quantity turbine is provided with an air extractor 51, and as a vacuum acceleration addition, a cold heat recovery device 103 for the mass turbine exhaust 28a. Recovered cold heat 52e, for example, the use of cold heat to produce and sell inexpensive ice that is close to infinity, making the cooling of nuisances a cold summer city that cools the entire abandoned city as a whole, and the same amount or more in energy conservation cycle heat production The warm heat 52d and superheated steam are also used for various applications to make the seawater temperature rise 0CO2 exhaust 0 fuel cost 0 natural phenomenon high speed power generation, to make the existing thermal nuclear power generation amount 0 zero gravity warming geothermal power generation .

  The geothermal air heater 2z in FIG. 3 collects the geothermal heat with the maximum amount of underground heat by using the heat absorbing material 2B at the tip by screwing the spiral protrusion 3K at the tip into various drilling holes, and from the intake air passage 28A. The air 28a is heated to 100 to 300 degrees or the like by the suction heat absorbing material 2B, the heated air 28a is sucked from the isolated geothermal heating air passage 28D by the isolation heat insulating plate 3H of the heat insulating material 2c, and is sucked and compressed 800 by the heat pump 1G. Then, another air 28a for heat exchange geothermal heating is heated to 500 degrees or the like by the compression heat recovery device 2C, and compressed multiple times to a suction compression 1200 degrees or the like by a large number of heat pumps 1G, and heat recovery is performed 500 degrees multiple times. Before and after, optimal temperature 24-400MPa compressed air 28a mass + around 400 degrees 24-400MPa superheated steam 50 heat quantity divided and stored respectively, metal sphere mercury gravity facing mass turbine 8K, Mercury gravity opposing heat turbine 8K, and geothermal power generation driven by sea temperature rise 0CO2 exhaust 0 fuel costs 0.

Using infinite power generation and compression heat recovery device 2C, we challenged infinite production of hot and cold heat at a fuel cost of 0, and conducted experiments using compressed air calorie output + compressed air mass output. Minimize the act of converting limited resources such as CO2 into combustion, prevent global warming, leave limited resources to descendants, maximize the use of cold energy, and use the rest as cold nutrients such as oxygen, nitrogen and CO2. It is dissolved in deep ocean water and supplied to the ocean floor, speeding up the natural phenomenon in the North Sea and supplying it to the world ocean floor, phytoplankton, seaweeds, corals, etc. To reverse the rise in sea surface temperature of existing thermal nuclear power generation by 7 degrees and increase in CO2 exhaust, to prevent global warming by increasing sea surface temperature, 0 seawater cooling, CO2 exhaust, 0CO2 recovery and 0 fuel costs, dredging, heavy rain and sea level Rising, typhoon, It will prevent the section wind and huge tornado like.

  Seawater temperature rise 0 CO2 exhaust 0 fuel cost 0 natural phenomenon acceleration seawater cooling CO2 recovery power generation, theoretical best turbine metal sphere mercury gravity geothermal power generation and solar power generation, etc. Completely abolished thermal nuclear power generation, driven by inexpensive metal sphere mercury gravity solar power storage battery, various types of automobiles and various types of ships, electric driven full-scale electrified residential prime and factory electrification, and cold and hot use. Equally, if the theoretical best turbine moves to the best experimental result turbine and the greatest cause of abnormal weather is a 7 degree rise in seawater temperature or an increase in CO2, prevent global warming by speeding up natural phenomena and postpone human extinction There is a possibility.

  0: Vacuum, 1: Generator, 1A: Mercury exhaust inspection room, 1B: Oxygen amount increasing means, 1C: Alcohol cooling, 1D: Fuel injection pump, 1F: Condensate pump, 1G: Heat pump, 1H: Pumping pump, 1J: Pumping device, 1Y: Combustor, 1b: Fuel, 1c: Specific critical material, 1d: Mercury, 1e: Coated steel ball (covered with impact reducing means 2G) 1e: Coated mercury (durable material such as spherical stainless steel and impact 1g: Gravity acceleration part, 1h: Horizontal axis, 2: Solar heater (tracking by tilting and rotating sunlight with long lens) 2a: Water condenser, 2a: Condensate cooler, 2b: Solar thermal augmentation suspension bridge (tracking by tilting and rotating sunlight with a long lens multiple steps up and down the hanging tool left and right) 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: hanging tool left, 2g: hanging Right, 2h: Seawater cooler, z: geothermal air heater, 2A: heat-resistant material, 2B: heat absorbing material, 2C: compression heat recovery device, 2D: output increasing means, 2E: output increasing sphere (mercury, liquid lead, liquid tin, liquid bismuth, liquid cadmium・ Liquid indium ・ Liquid gallium ・ Liquid zinc ・ Liquid thallium ・ Liquid metal ・ Water ・ Platinum sphere ・ Coated platinum sphere ・ Gold sphere ・ Coated gold sphere ・ Platinum alloy sphere ・ Gold alloy sphere ・ Lead alloy sphere ・ Silver alloy sphere ・ Coated platinum Alloy balls, coated gold alloy balls, coated lead balls, coated silver alloy balls, tungsten alloy balls, coated tungsten alloy balls, tungsten steel balls, coated tungsten steel balls, tantalum alloy balls, coated tantalum alloy balls, molybdenum steel balls, coated molybdenum steels Sphere, molybdenum cast iron sphere, coated molybdenum cast iron sphere, silver sphere, coated silver sphere) 2F: Increase sphere raising device, 2G: Impact reduction means (small sphere, lubricating oil, non-combustible liquid, rubber, plastic 2H: 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 reducing means (water repellent action, high temperature heating means and optimum utilization known techniques such as coating reduce friction loss) 3A: Water repellent action (friction loss reducing means with water) 3B: High temperature heating means (electric resistance and electromagnetic heating 3C: Cold heat recovery means, 3G: Water repellent action (means for reducing friction loss with mercury) 3H: Isolation and insulation plate, 3K: Spiral protrusion, 4A: Turbine blade cross section (existing cross section) 4B: 4C: Turbine blade cross section (output opposite surface straight cross section) 4E: Turbine blade cross section (output opposite surface curved small cross section) 4F: Turbine blade Section (already 4X: turbine blade cross section (selected cross section from 4A to 4F) 5C: air exhaust chamber, 6: nozzle, 6a: nozzle injection section, 6b: nozzle injection section, 6d: nozzle injection section, 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: Rotary blade, 7C: Screw, 7E: Rotation Arm blades, 8a: all-blade bouncer gas turbine (all-blade gas turbine or all-blade mass turbine), 8b: all-blade bouncer water turbine (all-blade water turbine or all-blade heat quantity turbine), 8c: turbine Wings, 8d: Side plate, 8e: Cylindrical cylinder, 8E: All-blade flywheel mercury turbine (all-blade mercury turbine or all-blade heat quantity turbine) 8F: All-blade flywheel gravity turbine, 8G: Vertical all-blade liquid metal Solar thermal turbine (saddle-type all-blade heat quantity turbine-type all-blade mass turbine-type all-blade mercury gravity solar turbine), 8K: liquid metal gravity facing turbine (opposing turbine facing heat quantity turbine facing mass turbine), 8K: facing series All-blade impeller turbine (opposite series full-blade pusher mercury turbine opposite series full-blade pusher water turbine opposite series full-blade pusher gas gas turbine opposite series all-blade pusher 8L: Series full blade impeller turbine (Series full blade propeller mercury turbine series full blade impeller water turbine series full blade impeller gas turbine series full blade impeller gravity turbine), 8M: Encroaching series full motion Turbine wheel turbine, 10: hull, 10A: cabin, 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: Expanded piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Superheated steam control valve, 25B: Hot water control valve, 25a: intake valve, 25b: fuel control valve, 28a: air, 28a: internal air, 28a: air pipe air, 28b: calorific value of compressed air, 28A: intake air 28B: Airway inlet, 28D: Geothermal heating airway, 37a: Magnetized friction wheel, 37b: Inner magnetized friction wheel, 38a: Flight trunk, 38b: Flight wing, 38c: Flight tail, 38d: Vertical wing, 38e Wing leading edge, 38 g: surface wing, 38 h: levitation boat, 38 A: gravity airplane, 38 B: air suction jet water jet ship, 38 C: water suction jet ship, 39 A: solar thermal gravity airplane, 39 A: liquid metal gravity solar thermal space Return aircraft, 39B: Solar gravity rotating airplane, 39B: Liquid metal gravity solar airplane, 39C: Solar gravity helicopter, 39C: Liquid metal gravity solar ship, 39C: Water gravity solar ship, 39D: Screw ship, 39D: Liquid metal Gravity solar thermal ship, 39F: space return aircraft, 39G: space return flight ship, 40A: direction Rudder, 46: magnet part, 49: combustion gas, 49B: chimney combustion gas calorie, 49C: factory use calorie, 50: superheated steam, 51: air extractor, 52a: water, 52b: water (temperature changes with sunlight) Water) 52b: High-temperature water, 52d: Hot heat, 52d: Water heat, 52d: Superheated steam heat, 52e: Cold heat, 52e: Water-cooled heat, 52e: Compressed air cold, 52e: Alcohol cold, 52e: Ice cold, 55: Gear 55B: Magnetic friction transmission (including gear and water pump) 55Y: Gear transmission (selected from existing transmission) 60A: Inner shaft device, 60B: Outer shaft Apparatus, 60C: inner blade group, 60D: outer blade group, 77B: cylindrical outer box, 77D: water jet outer box, 77F: injection section outer box, 77G: Cylindrical rotation part, 77a: Turbine outer casing, 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 + steam turbine, etc.) 78V: coalescence engine injection part, 78X: coalescence engine injection part (78S78T78U78V selected) 79K: coalescence engine injection part, 79M: water jet, 79S: water jet, 79T: water jet, 79U : Water jet, 79V: Water jet (selected from 79S79T79U) 80: Bearing, 80a: Thrust bearing, 80A: Joint, 80B: Fastener, 81: Support shaft, 81a: Support point, 84: Counter reversal magnetic friction power transmission Equipment (gear type and 84Y: Counter rotating gear device (existing technology) 94: Fixed outer box, 94A: Vertical part of outer box, 95: Hot water reservoir, 95a: Combustion gas reservoir, 95b: Compressed air reservoir, 95c: Overheating Steam reservoir, 95A: water intake channel, 95B: fuel reservoir, 96A: water supply channel, 97: check valve, 103: cold energy recovery device,

Claims (5000)

  Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) speeds up natural phenomenon with 1 to 26 times geothermal power generation + saves metal sphere and mercury with increasing sphere rising device (2F) + heats air heated by geothermal heat Compressing and recovering heat by compressing geothermal heating air + Driving the turbine diameter of the opposed all blade impeller turbine + Double the geothermal air heater (2z) inserted in the drilling hole in the boring machine.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4B) speeds up natural phenomenon by geothermal power generation 5 times + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + compresses heating air with geothermal heat Combined with various energy storage cycle engines that recover geothermal heated air by heating and compressing heat + drive the turbine diameter three times of the opposed all-blade propeller turbine + insert a geothermal air heater (2z) into the drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4C) speeds up natural phenomenon with geothermal power generation 6 times + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + compresses heating air with geothermal heat Combines various energy storage cycle engines that recover geothermal heated air by heating and compressing heat + drive the turbine diameter 4 times of the opposed all-blade propeller turbine + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) speeds up natural phenomenon by 7 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere lift (2F) + compresses heating air with geothermal heat Combines various energy storage cycle engines that recover geothermal heated air by heating and compressing heat + drive the turbine diameter of the opposed all-blade propeller turbine 5 times + insert a geothermal air heater (2z) into the drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) speeds up natural phenomenon with geothermal power generation 8 times + Increase sphere lift device (2F) to save metal sphere and mercury + Compress the heated air with geothermal heat Combines various energy storage cycle engines that recover geothermal heating air by heating and compressing heat + drive the turbine diameter of the opposed all-blade propeller turbine + double the geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with two stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine in three stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy conservation cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 4 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 5 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 7 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy conservation cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 8 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 12 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 13 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed to recover heat + the turbine diameter of the opposed all blade impeller turbine is driven three times + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 14 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 15 stages + storage battery driven various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 16 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 17 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed to recover heat + the turbine diameter of the opposed all blade impeller turbine is driven three times + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 26 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 18 stages + storage battery powered various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation turbine in 19 stages + storage battery powered various vessel priming + increasing sphere rising device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 20 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 21 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending condition, the geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered. The turbine diameter of the opposed total impeller blade turbine is driven four times. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 23 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 24 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending condition, the geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered. The turbine diameter of the opposed total impeller blade turbine is driven four times. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 27 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 28 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 29 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed to recover heat + the turbine diameter of the opposed all blade impeller turbine is driven three times + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 30 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending condition, the geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered. The turbine diameter of the opposed total impeller blade turbine is driven four times. The geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 33 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed to recover heat + the turbine diameter of the opposed all blade impeller turbine is driven three times + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 35 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed to recover heat + the turbine diameter of the opposed all blade impeller turbine is driven three times + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 38 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 39 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 40 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat, recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 41 stages + storage battery drive various vessel prime + increase ball rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by the geothermal heat and recovering the heat from the geothermal heating air + Recovering and using the combined air temperature and cold energy, etc. .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 42 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by the geothermal heat and recovering the heat from the geothermal heating air + Recovering and using the combined air temperature and cold energy, etc. .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 43 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by the geothermal heat and recovering the heat from the geothermal heating air + Recovering and using the combined air temperature and cold energy, etc. .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) double the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 44 stages + storage battery drive various vessel prime + increase ball rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 45 stages + storage battery-powered various ships prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by the geothermal heat and recovering the heat from the geothermal heating air + Recovering and using the combined air temperature and cold energy, etc. .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball lift device (2F) + Compress the heating air by geothermal heat and heat the compression heat from the geothermal heating air Collecting + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Inserting a geothermal air heater (2z) into the boring machine drilling hole and combining various energy conservation cycle engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 47 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball lift device (2F) + Compress the heating air by geothermal heat and heat the compression heat from the geothermal heating air Collecting + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 48 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball lift device (2F) + Compress the heating air by geothermal heat and heat the compression heat from the geothermal heating air Collecting + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine excavation hole, various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 49 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball lift device (2F) + Compress the heating air by geothermal heat and heat the compression heat from the geothermal heating air Collecting + Driving the turbine diameter twice of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball lift device (2F) + Compress the heating air by geothermal heat and heat the compression heat from the geothermal heating air Collecting + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Inserting a geothermal air heater (2z) into the boring machine drilling hole and combining various energy conservation cycle engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 9 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 51 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 53 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 55 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbines are provided in 56 stages + make electric drive prime + heat is compressed by geothermal heat and geothermal heating Combines various energy storage cycle engines that recover air by heating and compressing heat + drive the turbine diameter 5 times the diameter of the opposed all-wheel impeller turbine + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 57 stages + electric drive prime + geothermal heating compresses the heating air and geothermal heating Combines various energy storage cycle engines that recover air by heating and compressing heat + drive the turbine diameter twice that of an opposed all-blade propeller turbine + insert a geothermal air heater (2z) into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 58 stages + electric drive prime + geothermal heat compresses the heating air and geothermal heating Combines various energy storage cycle engines that recover heat by compressing heat + drive the turbine diameter of the opposed impeller blade turbine 3 times + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 59 stages + electric drive prime + geothermal heat compresses the heating air and geothermal heating Combines various energy storage cycle engines that recover air by heating and compressing heat + drive the turbine diameter 4 times of the opposed impeller blade turbine wheel + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 60 stages + electric drive prime + geothermal heat compresses heating air and geothermal heating Combines various energy storage cycle engines that recover heat by compressing heat + drive the turbine diameter of the opposed impeller blade turbine 5 times + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + power increasing sphere (2E) with a small diameter to drive the acceleration turbine + geothermal Compressed heating air to recover heated and compressed geothermal heated air + Drives twice the turbine diameter of the opposed all blade impeller turbine + Inserts a geothermal air heater (2z) into the boring machine drilling hole to save energy Cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + power increase sphere (2E) with a small diameter to drive the acceleration turbine + geothermal Compresses the heated air to recover the heated and compressed geothermal heating air + Drives the turbine diameter of the opposed all-blade propeller turbine 3 times + Inserts a geothermal air heater (2z) into the drilling hole and saves various energy Cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 63 stages + power increasing sphere (2E) with a small diameter to drive the acceleration turbine + Compresses the heated air and recovers the heated and compressed heat from the geothermal heating air + Drives the turbine diameter 4 times the turbine of the opposed all blade impeller turbine + Inserts the geothermal air heater (2z) into the drilling hole and saves various energy Cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 64 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + geothermal Compresses the heated air to recover the heated and compressed geothermal heating air + Drives the turbine diameter of the opposed all blade impeller turbine 5 times + Inserts the geothermal air heater (2z) into the boring machine drilling hole to save energy Cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 65 stages + output increasing sphere (2E) with small diameter to drive the acceleration turbine + geothermal Compresses the heated air to recover the heated and compressed geothermal heated air + Drives the turbine diameter of the opposed all-blade propeller turbine + doubles the turbine diameter + Inserts a geothermal air heater (2z) into the drilling hole to save energy Cycle coalescence engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 66 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 67 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating / compressing heat recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed impeller blade wheel turbine + boring geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 68 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Drive the turbine diameter of the opposed all-wheel impeller turbine 5 times + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) is double the same diameter and the same shape and the same length geothermal power turbine is installed in 69 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine + Turning the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 70 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven 3 times + Geothermal air heater (2z) is boring machine Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 71 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 72-stage structure + storage battery drive various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 6 times the same diameter and the same shape and the same length of geothermal power generation turbine 73 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine + Turning the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 74 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven 3 times + Geothermal air heater (2z) is boring machine Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 8 times the same diameter approximately the same shape and the same length geothermal power generator 75 stage structure + storage battery drive to make all kinds of cars primed + increase ball rising device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4C) with 9 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 76 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy conservation cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The energy saving cycle coalescing engine equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 78 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 79 stages + storage battery drive, electric drive and chilled heat utilization + geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine is installed in 81 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 82 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 83 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 84 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven 5 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4F) 18 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 85 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4A) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 87 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 88 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 89 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The energy saving cycle coalescing engine equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 90 stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 91 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating / compressing heat recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed impeller blade wheel turbine + boring geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 92 stages + full electrification house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Drive the turbine diameter of the opposed all-wheel impeller turbine 5 times + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 93 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) double the same diameter and the same shape and the same length geothermal power generation turbine installed in 94 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 95 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) is 4 times the same diameter, approximately the same shape, the same length, and the same length of geothermal power generation turbine 96 stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 5 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 97 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Driving the turbine diameter of the opposed all-wheel impeller turbine + Turning the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 98 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4B) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 99 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating / compressing heat recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed impeller blade wheel turbine + boring geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 100 times structure of geothermal power generation turbine with the same diameter and shape of the same diameter 8 times + Storage battery drive Various automobiles are primed + Metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 9 times the same diameter and the same shape and the same length of geothermal power generation turbines in 101 stages + storage battery drive, electric drive and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 102 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 104 stages + battery drive, electric drive and chilled heat utilization + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 105 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 14 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 106 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 108 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 109 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 110 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 111 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 112 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 113 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 115 stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 116 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 117 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) with 26 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 118 stages + full electrification house prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 119 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 120 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine one stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine two-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 3-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 4 stage structure + storage battery drive to make all kinds of cars primed + increase ball riser (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 8 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 5 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 6 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 7 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 9 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 11 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 12 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 13 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 14 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter, approximately the same shape and the same length, geothermal power generation turbines are installed in 15 stages + factory electrification prime + increase sphere raising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 16 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 19 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 20 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 21 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 23 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with 3 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 24 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 25 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 26 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 27 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increase ball riser (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 28-stage structure + storage battery drive to make all kinds of automobiles + metal ball with the increase ball lift device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 29-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 30 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 31 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 32 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 33 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 15 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 36 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 37 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 17 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 38 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 39 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 40 stages + plant electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 41 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 42 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 44 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 45 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 46 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 3 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 49 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 50 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine 51 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 52 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 53 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) is 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 54 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 55 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 57 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) 14 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 61 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 62 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 63 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 64 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 65 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 66 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 68 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 69 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 70 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 25 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 71 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 72 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is double the same diameter and the same shape and the same length geothermal power turbine is installed in 73 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 74 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 75 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length geothermal power generator 76 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 77 stage structure + storage battery drive to make all kinds of cars primed + increase ball rising device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 78 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 79 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 80-stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Drive the turbine diameter of the opposed all-wheel impeller turbine 5 times + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 10 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 81 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4C) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 82 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 84 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 86 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 87 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4C) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 88 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 89 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 90 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 91 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 92 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 93 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 95 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 96 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 26 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 97 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 98 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 100 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 101 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 102 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 103 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 8 times the same diameter and the same shape and the same length Geothermal power generation turbine 104 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 9 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 105 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbines in 107 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 12 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 108 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 109 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4A) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 111 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 112 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 113 stages + factory electrification prime + increase ball riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4E) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 114 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4F) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 115 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 116 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 118 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 120 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 25 times the same diameter and the same shape and the same length of geothermal power turbine installed in one stage + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with 26 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in two stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 3 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length, geothermal power turbines are arranged in 4 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 5 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 6-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 7-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 8-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposed metal sphere Mercury gravity geothermal turbine blade cross section (4B) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 9-stage structure + storage battery drive to make all kinds of cars primed + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 9 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 10 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross-section (4D) 10 times the same diameter and approximately the same shape and length of geothermal power generation turbine 11-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 12-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 13 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine 14-stage structure + storage battery drive prime + increase sphere riser (2F) to increase the metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 15-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives turbine diameter 2 to 12 times the turbine diameter of opposed all-wing impeller turbine + Drilling geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 16-stage structure + storage battery drive prime + increase sphere riser (2F) to increase the metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 17 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 18 stage structure + storage battery drive prime + increase ball riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) is 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 19-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine 20-stage structure + storage battery drive prime + increase sphere riser (2F) to increase the metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 21 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 24 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 25 stages + storage battery drive various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine + 5 times Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 27 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with double the same diameter approximately the same shape and the same length geothermal power generation turbine in 28 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 36 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 38 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 39 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 41 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 42 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 44 stages + storage battery drive various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 45 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 46 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 49 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4b) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine in 51 stages + storage battery driven various ships prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + accelerating storage battery driven various vessels + increasing sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 53 stages + storage battery driven various ships prime + increase sphere rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase ball rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 55 stages + storage battery drive various vessel prime + increase ball rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Recovering heat and compression heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) inserted into the boring machine drilling hole and various energy storage cycle coalescing engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air Combines various energy storage cycle engines that recover heat and compression heat + drive the turbine diameter 4 times the diameter of the opposed all-wheel impeller turbine + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 58 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air Combines various energy storage cycle engines that recover heat and compression heat + drive the turbine diameter 5 times of the opposed impeller blade turbine wheel + insert a geothermal air heater (2z) into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 8 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Recovering heat and compression heat + Drives twice the turbine diameter of the opposed all-blade propeller turbine + Inserts a geothermal air heater (2z) into the drilling hole for various energy storage cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Recovering heat and compression heat + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) inserted into the boring machine drilling hole and various energy storage cycle coalescing engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure 61 + storage battery drive, electric drive and cold use prime + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 62 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 64 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4D) with 14 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 65 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 66 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 67 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 68 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 69 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 19 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 70 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 71 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 73 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbines in 74 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 75 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 76 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 77 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 78 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 79 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 80 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 81-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 82 stage structure + storage battery drive various automobiles primed + sphere riser (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 83-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4E) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 84 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 85 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere lift device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter and the same shape and the same length Geothermal power generation turbine structure in 86 stages + battery driving prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 87 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 88 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 89 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 91 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 92 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 93 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 94 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 95 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 98 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4B) 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 100 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 101 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 102 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 103 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 104 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 105 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 106 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 107 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 7 times the same diameter approximately the same shape and the same length Geothermal power generation turbine 108-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is 8 times the same diameter and approximately the same shape and length of geothermal power generation 109 stage structure + storage battery drive various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 110 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 111 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 112 stages + storage battery drive, electric drive and cold use prime + geothermal air to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 12 times the same diameter and the same shape and the same length of geothermal power generation turbines in 113 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 115 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 116 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4B) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 117 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 118 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 119 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 120 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 3 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 25 times the same diameter, approximately the same shape and the same length geothermal power generation turbines are provided in 6 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 7 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 8 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 9 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 10 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 11-stage structure + storage battery drive to make various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 12-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lift device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 13 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) 8 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 14-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 15-stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 16 stages + storage battery drive, electric drive and chilled heat utilization + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 17 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 19 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 20 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 21 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 22 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 17 times the same diameter, approximately the same shape, the same length, geothermal power turbines are installed in 23 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 24 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 25 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine in 26 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 27 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 28 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 29 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 31 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 32 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with double the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 33 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 4 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 35 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 36-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 6 times the same diameter and the same shape and the same length of geothermal power generation turbine 37-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 38-stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 39-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 40-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 41 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 42 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 44 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 45 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 46 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4F) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 49 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 50 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 51 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 53 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 54 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 55 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 56 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 26 times the same diameter and approximately the same shape and the same length geothermal power turbine installed in 57 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 60 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 5 times the same diameter approximately the same shape and the same length geothermal power generator 61-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lifting device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 62 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 63-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 64 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 9 times the same diameter and approximately the same shape and length of geothermal power generation turbine 65-stage structure + storage battery drive to make all kinds of cars primed + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive and cold use prime + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 67 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 68 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 69 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4C) with 14 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 70 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 71 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 72 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 73 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 74 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 75 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 77 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 78 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 81 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 82 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 83 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 84 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 85 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter approximately the same shape and the same length geothermal power turbine 86 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4B) 6 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 87 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine with 88-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 89 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 90-stage structure + storage battery driven various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 91 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 92 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase sphere riser (2F) to store metal spheres and mercury + Compress geothermal heating air and recover geothermal heated air by heating and compression heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 93 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 13 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 95 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 96 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 97 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 98 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 99 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 100 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 102 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 104 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 106 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 107 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 108 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 109 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 110 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 5 times the same diameter, approximately the same shape, the same length, geothermal power generator 111-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 112-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 7 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 113 stage structure + storage battery drive to make all kinds of cars primed + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with 8 times the same diameter and the same shape and the same length of geothermal power generation turbine 114 stage structure + storage battery powered various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is 9 times the same diameter approximately the same shape and the same length geothermal power generation 115 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 116 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 119 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 14 times the same diameter and the same shape and the same length of geothermal power generation turbines in 120 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in one stage + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in two stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 3 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 4 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power turbines are installed in 5 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 6 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 25 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 11 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 12 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) has the same diameter and the same shape and the same length of geothermal power generation turbine in 13 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 14 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in 15 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 16-stage structure + storage battery drive to make all kinds of cars primed + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 6 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine 17-stage structure + storage battery powered various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 18 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 8 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 19-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 20-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) is 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 21 stage structure + storage battery drive prime + increase sphere ascent device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) is 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) is 12 times the same diameter approximately the same shape and the same length geothermal power turbine 23 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 24 stage structure + storage battery drive prime + metal sphere and mercury with increasing sphere rising device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 25-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 26 stage structure + storage battery drive prime + increase sphere ascent device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 16 times the same diameter approximately the same shape and the same length geothermal power turbine 27 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 17 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine with 28-stage structure + storage battery drive prime + metal ball and mercury with increasing sphere rising device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 29-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 19 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 30 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 31 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + storage battery driven various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 36 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with the same diameter and the same shape and the same length of geothermal power generation turbines in 38 stages + the storage battery-powered various ships prime + Intensifying sphere climbing device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 39 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 41 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 42 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 43 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 44 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 45 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 46 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 48 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 49 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 51 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 53 stages + storage battery driven various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 19 times the same diameter and the same shape and the same length geothermal power generation turbine in 55 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 57 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 63 stages + storage battery driven various vessel prime + increase sphere rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 64 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 2 to 12 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 68 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 69 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter of the opposed all-wheel impeller turbine + double the geothermal air heater (2z) inserted in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 70 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives the turbine diameter of the opposed all-wheel impeller turbine 3 times + Inserts a geothermal air heater (2z) into the boring machine drilling hole and combines various energy storage cycle engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 71 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 73 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 74 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 75 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 76 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 77 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 78 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 79 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 80 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure 81 + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 82 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 84 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 25 times the same diameter and the same shape and the same length geothermal power turbine is installed in 86 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 87 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) is doubled with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 88 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 89 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 90 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine 91-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 92-stage structure + storage battery drive various cars primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 93 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 94 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 95 stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 98 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 100 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 101 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 102 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 103 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 104 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 105 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 106 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 107 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 108 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 109 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 111 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 112 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) is double the same diameter and the same shape and the same length geothermal power generation turbine is installed in 113 stages + Fully electrified house prime + Metal ball with increase sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4E) 3 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 114 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 115 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter, approximately the same shape, the same length, geothermal power generator 116-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 117 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter approximately the same shape and the same length geothermal power generator 118-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 119-stage structure of geothermal power generation turbine with the same diameter and shape of the same length of 8 times + accelerating various battery-powered automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 120 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in a single stage + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 4 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in five stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 6 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4F) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 9 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 12 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 13 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 14 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 16 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 17 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with twice the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 18 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 3 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 19 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 20 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine 21-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 23 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 24 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 25-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 26 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 27 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 29 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 30 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 32 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 34 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 21 times the same diameter and the same shape and the same length geothermal power generation turbines in 37 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 38 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine in 39 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 40 stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 41 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 42 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) is double the same diameter and the same shape and the same length geothermal power generation turbine is installed in 43 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 3 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 44 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 45 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length geothermal power turbine 46-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 47 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 48-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 49 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 50 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 51 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 53 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 54 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 55 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 15 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 56 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4B) 16 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 57 stages + plant electrification prime + increase sphere raising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 58 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 59 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 19 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 60 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4F) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 64 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 65 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 66 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 67 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 68 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 69 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4C) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 70 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 71 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 72-stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 73 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) 8 times the same diameter and approximately the same shape and the same length Geothermal power generation turbine 74 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 9 times the same diameter approximately the same shape and the same length geothermal power generation 75-stage structure + storage battery drive various automobiles + metal ball with increasing sphere lifting device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 78 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 81 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 16 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 82 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 83 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 84 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 85 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 87 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 89 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4E) 24 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 25 times the same diameter and the same shape and length of geothermal power generation turbine installed in 91 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 92 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) is double the same diameter and the same shape and the same length geothermal power turbine is installed in 93 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 94 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 95 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 5 times the same diameter, approximately the same shape, the same length, geothermal power generator 96-stage structure + storage battery-powered various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 97-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 98 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4B) is 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 99 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) is 9 times the same diameter and the same shape and the same length of geothermal power turbine 100 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 102 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 104 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4B) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 106 stages + factory electrification prime + increase sphere raising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4E) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 108 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 109 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 110 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 20 times the same diameter and the same shape and the same length of geothermal power generation turbine in 111 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 112 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 113 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 114 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 115 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4A) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 116 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 26 times the same diameter and approximately the same shape and the same length of geothermal power turbines installed in 117 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 118 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4D) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 119 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 120 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine one-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 2-stage structure + battery-powered various vehicles primed + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine three-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power turbine 4 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 5 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 10 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4B) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 9 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 11 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 12 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 13 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 14 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 19 times the same diameter, approximately the same shape and the same length, geothermal power generation turbines are installed in 15 stages + factory electrification prime + increase sphere raising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 16 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 19 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 20 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 21 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 23 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) with 3 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 24 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 25 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4A) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 26 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4B) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 27 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increase ball riser (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4C) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 28-stage structure + storage battery drive to make all kinds of automobiles + metal ball with the increase ball lift device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4D) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 29-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4E) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 30 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 31-stage structure + storage battery drive prime + increase sphere lifting device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 11 times the same diameter approximately the same shape and the same length geothermal power turbine 32 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) with 12 times the same diameter and the same shape and the same length geothermal power generation turbine 33 stage structure + storage battery drive prime + metal sphere and mercury with increasing sphere rising device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) is 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine 34 stage structure + storage battery drive prime + increase sphere riser (2F) to increase the metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) with 14 times the same diameter and approximately the same shape and length of geothermal power generation turbine 35 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 36-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4F) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 37 stage structure + storage battery drive prime + metal sphere and mercury with the increase sphere rising device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4A) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine 38 stage structure + storage battery drive prime + metal sphere and mercury with the increase ball riser (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) is 18 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 39-stage structure + storage battery drive prime + increase ball riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine 40 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 41 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 42 stages + storage battery driven various ships prime + increase sphere lift device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 44 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 45 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending condition, + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 46 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) double the same diameter approximately the same shape and the same length geothermal power generation turbine with 48 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 49 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 51 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4D) 7 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine structure in 53 stages + storage battery driven various ship priming + increasing sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 55 stages + storage battery drive various vessel prime + increase ball rising device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 58 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 59 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure 61 + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 62 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4B) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 64 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4D) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 66 stages + storage battery driven various ship priming + increasing sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4A) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 68 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4B) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 69 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending condition, + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 70 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + The geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4D) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4E) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + accelerating storage battery drive various vessels + increasing sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4F) with double the same diameter and the same shape and the same length geothermal power generation turbine in 73 stages + storage battery powered various ship prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine construction in 74 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 75 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 78 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter of the opposed all-wheel impeller turbine + double the geothermal air heater (2z) inserted in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 79 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives the turbine diameter of the opposed all-wheel impeller turbine 3 times + Inserts a geothermal air heater (2z) into the boring machine drilling hole and combines various energy storage cycle engines.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 81 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 82 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 84 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 86 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 87 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 88 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 89 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 90 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 91 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 92 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 93 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 94 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 95 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 96 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and the same shape and length of geothermal power generation turbine installed in 97 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 98 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 99 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 100 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 101 stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 102 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power turbine 103-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 104 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length of geothermal power generation turbine 105 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 106 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 107 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 108 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 109 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 110 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 111 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 112 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 113 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 114 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 115 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 116 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal air to heat and recover geothermal heated air by heating and compression + Accelerate water alloy Various energy storage cycle coalescing engines equipped with three types of power generation opposed all blade impeller turbine driving 5 times the turbine diameter + geothermal air heater (2z) inserted into the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 120 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in one stage + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in two stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and length of geothermal power turbines in three stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in 4 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 5 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 6-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 7 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 8 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 9-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 10-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 12 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 13 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 14 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 14 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 15 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 16 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 17 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 18 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 19 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 20 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 20 times the same diameter and the same shape and the same length of geothermal power generation turbines in 21 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and the same shape and the same length of geothermal power generation turbine in 23 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 24 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 26 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 27 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and the same length of geothermal power generation turbine provided in 28 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 29 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length of geothermal power turbine 31-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 32-stage structure + battery-powered various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine 33-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 34-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 35 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 36 stages + storage battery drive, electric drive, and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 37 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 38 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 39 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 41 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 42 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 43 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 44 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 45 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 47 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 49 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 51 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 52 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 53 stages + full electrification house prime + metal ball with increase sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 54 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 55 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 56-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 57 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 58 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 59-stage structure + storage battery drive to make all kinds of automobiles + metal sphere with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generator 60 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 64 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 65 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 66 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 67 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 68 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 69 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 70 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 71 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 72 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 73 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 74 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 75 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 76 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 77 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 78 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 79 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 4 times the same diameter and the same shape and length of geothermal power generation turbine installed in 80 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine 81 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 82 stage structure + storage battery drive to make all kinds of automobiles + metal ball with the increase ball riser (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 83-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 84 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 85 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 86 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 89 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 91 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 92 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 93 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 94 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 95 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 96 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 98 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 99 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 100 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 101 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 102 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 103 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 104 stages + full electrification house prime + metal ball with increase ball riser (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 105 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 106 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 107 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 108 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 109 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length of geothermal power turbine 110-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 111 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 112 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 113 stages + storage battery drive, electric drive and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 115 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 116 stages + plant electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 117 stages + Factory electrification prime + Increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 118 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 119 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 120 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 20 times the same diameter and the same shape and the same length of geothermal power generation turbine in one stage + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in three stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 5 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 6 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 7 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 8 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 9 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 10 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 11-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 12-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 13-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 14-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 15-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 16 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 19 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 20 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 21 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 22 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 23 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 24 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 25 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 27 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 29 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 30 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 31 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power turbine 36-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 37 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length Geothermal power generation turbine 38-stage structure + battery drive various automobiles prime + metal ball with increasing sphere lifting device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 39-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 40 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Save the mercury and compress the heated air by geothermal heat and recover the heated heat by compressing the geothermal heated air + Accelerate the metal sphere and water to increase the turbine diameter of three types of opposed all blade impeller turbines for power generation Various energy storage cycle coalescing engines equipped with a drive + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generator 41 stage structure + storage battery drive prime + increase sphere ascent device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine 42 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 12 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine 43 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine 44 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 45-stage structure + storage battery drive prime + increase sphere riser (2F) to increase the metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and length of geothermal power generation turbine 46-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power turbine 47 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) is 48 times structure of geothermal power generation turbine with the same diameter and the same shape of 17 times the same size + storage battery drive prime + metal sphere and mercury with increasing sphere rising device (2F) Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 4 times + Driving geothermal air heater (2z) to drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) is 18 times the same diameter and approximately the same shape and length of geothermal power generation turbine 49 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 5 times + Driving the geothermal air heater (2z) to the boring machine drilling hole Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine 50 stage structure + storage battery drive prime + increase sphere ascent device (2F) with metal sphere and mercury Preserving ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + double the geothermal air heater (2z) in the drilling hole of the boring machine Various energy storage cycle coalescence engine with insert.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 52 stages + storage battery-powered various ships prime + increase sphere lift device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 55 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) twice the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 59 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending condition, + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 64 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbines in 67 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 68 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 69 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 70 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 73 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 74 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending condition, + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 75 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover heat. Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length geothermal power generation turbine in 77 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Drive the turbine diameter of the opposed all blade impeller turbine 5 times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 78 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + the geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + the turbine diameter of the opposed all blade impeller turbine is driven twice + the geothermal air heater Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an ascending manner + Geothermal heating air is compressed and the geothermal heating air is recovered by heating and compression heat + The turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine structure in 80 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) + Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover compressed heat from geothermal heating + Drive 4 times the turbine diameter of opposed all blade impeller turbine + Geothermal air heater (2z) Various energy storage cycle coalescing engine equipped with drilling machine inserted into drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power turbine structure in 81 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + accelerating various battery-powered vessels + increasing ball rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbines arranged in 83 stages + storage battery-powered various ship priming + increasing sphere rising device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 84 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 85 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Assembling and storing the metal spheres and mercury in the atmosphere + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal heat + Combined engine of various energy storage cycles as a power generation method that recovers and uses cold air .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 86 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter of the opposed all-wheel impeller turbine + double the geothermal air heater (2z) inserted in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 88 stages + storage battery drive, electric drive and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives the turbine diameter of the opposed all-wheel impeller turbine 3 times + Inserts a geothermal air heater (2z) into the boring machine drilling hole and combines various energy storage cycle engines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine structure in 89 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Geothermal air heater (2z) inserted into the boring machine drilling hole, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 91 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 92 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 93 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 96 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 97 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 98 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + plant electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 100 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 102 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 103 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 104 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 107 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter approximately the same shape and the same length geothermal power generation turbine with 108 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine with 109 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 110 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generator 111-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 112-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 113 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 114 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 9 times the same diameter and approximately the same shape and the same length of geothermal power generator 115 stage structure + battery powered by various automobiles + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 116 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine with 117 stages + storage battery drive, electric drive and cold use prime heat + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length geothermal power turbine installed in one stage + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in two stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in three stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 4 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 5 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 12 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 13 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 14 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 15 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross-section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 16-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 17 stage structure + storage battery drive to make all kinds of automobiles positive + ball lift device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 18-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 19-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 20 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 10 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 21 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 22 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 24 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 26 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 27 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 31 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 32 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 33 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 34 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine This is a combined engine with various energy conservation cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 37 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine with 38 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 39 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 40 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 41-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 42 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 43 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 44 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 45-stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 47 stages + storage battery drive, electric drive and chilling utilization + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 48 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 49 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 51 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 52 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 53 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power turbines are installed in 54 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 55 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 58 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 59 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power turbines in 63 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 64 stages + full electrification house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 65 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 66-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 67 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 68 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length, geothermal power generator 69-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 70 stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 71 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 72 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 73 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 74 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy conservation cycles, which is equipped with a turbine diameter of 5 times and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine with 75 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 76 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 77 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 78 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 79 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 80 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 81 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 82 stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 84 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 86 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 88 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length geothermal power generation turbine with 89 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 90 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine 91-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 92-stage structure + storage battery drive to make various automobiles primed + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and the same shape and the same length geothermal power generation turbine 93 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 94-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 95 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine in 97 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 98 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 99 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 100 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 101 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 102 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 103 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 104 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 105 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 107 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 108 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 109 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine with 111 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 112 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 114 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 115 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generator 116-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 117 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and the same shape and the same length Geothermal power generation turbine 118-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 119-stage structure + storage battery drive various automobiles primed + ball increase device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 120 stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat by compressing geothermal heat + Opposite all blade impeller turbine 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbines are installed in 6 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 9 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 12 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 13 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 14 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles, which is equipped with a turbine diameter of 2 times + geothermal air heater (2z) inserted into a boring machine drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine in 16 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 17 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generator turbine in 18 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 19 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 20 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 21 stage structure + storage battery drive to make various automobiles primed + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 23 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 24-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 25-stage structure + storage battery drive to make all kinds of cars primed + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 27 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 29 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 30 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 31 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 32 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven three times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-blade impeller turbine is driven 4 times + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 34 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all-wheel impeller turbine is driven 5 times + Geothermal air heater (2z) is drilled in a boring machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 35 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of the opposed all blade impeller turbine is driven twice + Geothermal air heater (2z) drilling machine Various energy storage cycle coalescing engines inserted into holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 37 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air 4 times the turbine diameter of the engine + geothermal air heater (2z) is inserted into the drilling hole drilling machine various energy storage cycle coalescing engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 38 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air The engine is driven by 5 times the diameter of the turbine + geothermal air heater (2z) is inserted into the boring machine excavation hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine in 39 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air Of various energy conservation cycles with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere raising device (2F) + Compress geothermal heat to compress heated air and recover heat from compressed air This is a combined engine with various energy storage cycles that is equipped with a turbine diameter of 3 times + geothermal air heater (2z) inserted into a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 41 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 42 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine in 43 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine + driving the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 44 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + Driving the turbine diameter of the opposed all blade impeller turbine 3 times + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 45 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heating air + Driving the turbine diameter 4 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power turbine 46-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 47 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of geothermal heating air and heating and compression heat recovery of geothermal heating air + Driving the turbine diameter of the opposed all-blade impeller turbine + Turning geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length geothermal power turbine 48-stage structure + storage battery drive various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of geothermal heating air and heating and compression of geothermal heating air + Turning the turbine diameter of the opposed all-blade impeller turbine 3 times + Taking a geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and length of geothermal power generation turbine 49-stage structure + storage battery drive to make all kinds of cars primed + sphere rising device (2F) metal sphere + Hydrogen and mercury + Compression of geothermal heating air and heating and recovery of geothermal heating air + Drives 4 times the turbine diameter of the opposed all blade impeller turbine + boring geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 50 stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Turbine diameter of opposed all-blade impeller turbine is driven 5 times + Geothermal air heater (2z) is boring machine Various energy conservation cycle coalescing engines inserted into drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon by 10 times geothermal power generation + saves metal sphere and mercury by increasing sphere rising device (2F) + compresses heating air by geothermal heat Recovering the geothermal heating air by heating and compressing heat + Driving the turbine diameter doubled by 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) + Various energies for installing the geothermal air heater (2z) in the drilling hole Conservation cycle coalescence organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomena with geothermal power generation 11 times + Increases and saves metal spheres and mercury with increasing sphere lift (2F) + compresses heating air with geothermal heat Recover geothermal heated air by heating and compressing heat + Drive the turbine diameter of 1 to 12 turbines with opposed all-blade turbine horizontal shaft (16A) + Various energy to provide geothermal air heater (2z) in drilling hole of boring machine Conservation cycle coalescence organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with geothermal power generation 12 times + Increases and saves metal sphere and mercury with increase sphere riser (2F) + compresses heating air with geothermal heat Recovering the geothermal heating air by heating and compressing heat + Driving the turbine diameter of 1 to 12 turbines by the opposed all blade turbine horizontal axis (16A) + Various energies to install the geothermal air heater (2z) in the drilling hole Conservation cycle coalescence organization.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon by 13 times geothermal power generation + saves metal sphere and mercury by increasing sphere rising device (2F) + compresses heating air by geothermal heat Recovering the geothermal heating air by heating and compressing heat + Driving the 1 to 12 turbine diameters 5 times by the opposed all-blade turbine horizontal axis (16A) + Various energies to install the geothermal air heater (2z) in the drilling hole Conservation cycle coalescence organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon by 14 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + compresses heating air with geothermal heat Recovering the geothermal heating air by heating and compressing heat + Driving the turbine diameter doubled by 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) + Various energies for installing the geothermal air heater (2z) in the drilling hole Conservation cycle coalescence organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 54 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 55 stages + storage battery drive, electric drive and cold use prime + geothermal air to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 58 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 59 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 62 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) twice the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 64 stages + storage battery driven various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generator structure with 65 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine in 67 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 68 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 69 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 70 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 71 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 73 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 74 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 75 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 78 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 80 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 81 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 84 stages + storage battery powered various ship prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 85 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 86 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 87 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) twice the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 88 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 89 stages + storage battery driven various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 91 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress heat heated by geothermal heat and recover heat by compressing heat from geothermal heat + assembly bolts with the same diameter and the same shape fitting bolt assembly 3 times the diameter of the turbine in multiple stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 92 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + Compress the heated air with geothermal heat and recover the heated and compressed heat from the heated geothermal air + Combined bolts with the same diameter and shape of the same bolt assembly 4 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 93 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat and compress heat recovered from geothermal heat + assembly bolts with the same diameter and the same shape 5 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 94 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat by compressing geothermal heated air + assembly bolts with the same diameter and the same shape fitting bolt assembly Turbine diameter is doubled into multiple stages such as generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress heat heated by geothermal heat and recover heat by compressing heat from geothermal heat + assembly bolts with the same diameter and the same shape fitting bolt assembly 3 times the diameter of the turbine in multiple stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Opposing all rotor blades horizontal axis (16A) drives 1 to 12 turbines 4 times the diameter + various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine in 97 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives 5 times the diameter of 1-12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 98 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives double turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescence engine with geothermal air heater (2z) in borehole drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 99 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collected + Drives 1 to 12 turbine diameters 3 times with opposed horizontal blade turbine horizontal axis (16A) + Various energy conservation cycle coalescence engine with geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 100 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collect + Accelerate metal balls and water with compressed air and drive 1 to 12 turbines 4 times the diameter of opposed full blade turbine horizontal axis (16A) + Install geothermal air heater (2z) in drilling hole Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 102 stages + storage battery drive, electric drive and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 104 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 106 stages + make electric drive prime + compress the heating air with geothermal heat Combines various energy storage cycles with heat and compression heat recovery + Opposing all blade turbine horizontal axis (16A) driving 1 to 12 turbine diameters double + Geothermal air heater (2z) in drilling hole organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + make electric drive prime + compress the heated air with geothermal heat Combines various energy storage cycles with heat recovery from heat and compression + Drives 1 to 12 turbine diameters 3 times with opposed horizontal blade turbine horizontal axis (16A) + Geothermal air heater (2z) in drilling hole organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 108 stages + to make electric drive prime + to heat the geothermal heat by compressing the heating air Combines various energy storage cycles with heat recovery from heat and compression + Drives 4 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A) + Geothermal air heater (2z) in drilling hole organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 109 stages, + electric drive prime, + heating by geothermal heat to compress geothermal heat Combines various energy conservation cycles with heat recovery from heat and compression + Drives 5 times the diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) + Geothermal air heater (2z) in drilling hole organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 110 stages + make electric drive prime + heat is compressed by geothermal heat and geothermal heating Combines various energy storage cycles with heat and compression heat recovery + Opposing all blade turbine horizontal axis (16A) driving 1 to 12 turbine diameters double + Geothermal air heater (2z) in drilling hole organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 111 stages + power increase sphere (2E) with small diameter to drive the acceleration turbine + Compressing heating air and recovering compressed heat from geothermal heating air + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) boring machine Various energy conservation cycle coalescence engines installed in drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 112 stages + power increasing sphere (2E) with small diameter to drive the acceleration turbine + geothermal Compressed heating air to recover heated and compressed geothermal heated air + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescence engines installed in drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + Accelerating turbine drive with small diameter of output increasing sphere (2E) + geothermal Compressing heated air to heat and compress the geothermal heating air + Drive the turbine blades 1 to 12 times 5 times on the opposed all-blade turbine horizontal axis (16A) + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescence engines installed in drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 114 stages + power increase sphere (2E) with small diameter to drive the acceleration turbine + geothermal Compressing the heated air to recover the heated and compressed geothermal heated air + Drives twice the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) + Boring machine for the geothermal air heater (2z) Various energy conservation cycle coalescence engines installed in drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 115 stages + power increase sphere (2E) small diameter to drive the acceleration turbine + geothermal Compressed heating air to heat and compress geothermal heating air + Accelerate metal balls and water with compressed air and drive 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation structure with 116 stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascend and store + Geothermal heat compresses heating air and recovers heat from compressed geothermal heating + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 117 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + Driving the turbine diameter 5 times of the opposed all blade impeller turbine + Boring the geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into machine drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 118 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines twice with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines three times with the opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 120 stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat to recover geothermal heating air by heating and compressing heat + Accelerate metal sphere and water with compressed air to 1 to the horizontal axis (16A) Various energy conservation cycle coalescing engines that drive 12 turbine diameters 4 times + geothermal air heater (2z) in drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length of geothermal power turbine 1 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine two-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine three-stage structure + storage battery drive various automobiles primed + sphere riser (2F) metal sphere + Save the mercury and compress the air heated by geothermal heat to recover the heat of the geothermal heated air + Heat and compress heat recovery + 1 to 12 turbines 3 times the diameter of the opposed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power turbine 4 stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 5 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 9 stages to accelerate the hot water ball vertically downward + battery drive or electric drive Refrigerate use of cold energy + Collect geothermal heat with geothermal air heater (2z) + Increase and store metal spheres and mercury with increasing sphere rising device (2F) + Compress geothermal heating air by compressing heated air with geothermal heat Heat recovery + Drives 5 times the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power turbines are installed in 11 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 12 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 13 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 14 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 15 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 16 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and the same shape and the same length of geothermal power generation turbines in 17 stages + storage battery drive, electric drive and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbines in 18 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 19 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 20 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 21 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines twice with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 23 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines three times with the opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 24 stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascend and store + Geothermal heat compresses heating air and recovers heat from compressed geothermal heating + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat to recover geothermal heating air by heating and compressing heat + Accelerate metal sphere and water with compressed air to 1 to the horizontal axis (16A) Various energy storage cycle coalescing engines that drive 12 turbine diameters 5 times + geothermal air heater (2z) in drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 26 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power turbine 27 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Accelerating hot water of heavier material vertically downwards on the opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 28-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine 29-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 30 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 31 stages + storage battery drive, electric drive and cold use prime heat + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 32 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 33 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 36 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 38 stages + factory electrification prime + metal sphere with the increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 39 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 40 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 41 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 42 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbines in 43 stages + storage battery drive, electric drive, and cold energy use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 44 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 45 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 46 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines twice with the opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + full electrified house prime + metal with increasing ball rising device (2F) Storing the sphere and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + Driving the turbine diameter of 1 to 12 turbines three times with the opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length, geothermal power turbine structure with 48 stages + full electrified house prime + metal with increasing sphere lift (2F) Sphere and mercury ascend and store + Geothermal heat compresses heating air and recovers heat from compressed geothermal heating + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 49 stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 5 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) + Various energy storage cycle coalescing engines that provide geothermal air heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 50 stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat to recover geothermal heating air by heating and compressing heat + Accelerate metal sphere and water with compressed air to 1 to the horizontal axis (16A) Various energy storage cycle coalescing engines with twelve turbine diameters driven + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 51 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine 52 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 53-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 54 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 55 stage structure + storage battery drive to make all kinds of automobiles + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 58 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 59 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 61 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 62 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Water alloy is accelerated vertically downward and 1 to 12 units are mounted on the opposed all blade turbine horizontal axis (16A) A combination of various energy storage cycle engines that drive the turbine diameter twice and provide a geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 63 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 64 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 65 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 68 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 69 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 70 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and the same shape and the same length geothermal power turbine is installed in 71 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and length of geothermal power turbines installed in 72 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 73 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 74 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 75 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generator 76 stage structure + storage battery drive various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 77 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 78 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 79 stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 80 stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 81 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 84 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 86 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 87 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 88 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 89 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 90 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) The energy saving cycle coalescence engine that drives the turbine diameter twice and the geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 91 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 92 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 93 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 96 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 10 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 97 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1-12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 98 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 99 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 100 stages + full electrification house prime + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine 101 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 102 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine 103-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 104 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation 105 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 107 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 108 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 109 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 110 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 111 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 112 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 113 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 114 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 4 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 115 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 116 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive and cold use prime heat + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in one stage + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 2 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 3 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 4 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and length of geothermal power generation turbines are installed in 5 stages + full electrified house prime + metal balls with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 6-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 7-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 8-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 9-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine 10 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 12 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 13 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 14 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbines installed in 16 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 17 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with three times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 18 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 19 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 20 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 21 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 24 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 26 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 27 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + full electrification house prime + metal ball with increase ball riser (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 14 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 29 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 31-stage structure + storage battery powered various automobiles + metal ball with increasing sphere lifting device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine 32-stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 33 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere lifting device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1-12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 19 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 34 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 35-stage structure + storage battery drive various automobiles primed + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 36 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 37 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 38 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 39 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 41 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 42 stages + factory electrification prime + metal sphere with increasing sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 43 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 44 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 45 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 47 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 48 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 49 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 51 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided 52 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 14 times the same diameter and the same shape and length of geothermal power generation turbine installed in 53 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 54 stages + full electrification house prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided 55 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and length of geothermal power generation turbine 56-stage structure + storage battery drive to make all kinds of cars primed + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 18 times the same diameter approximately the same shape and the same length geothermal power turbine 57 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1-12 turbines Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine 58 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine 59-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 60-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) is 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine 61 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine 62 stage structure + storage battery drive prime Ascending and storing + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 63 stage structure + storage battery drive prime + metal sphere and mercury with the increase ball riser (2F) Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 64 stage structure + storage battery drive prime + metal sphere and mercury with increasing sphere rising device (2F) Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine 65-stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Accelerating metal spheres and water with compressed air to 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) Combined engine with various energy conservation cycles that drive 5 times the diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 66-stage structure + storage battery drive prime + increase sphere ascent device (2F) Ascending and storing + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine 67 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length of geothermal power generator 68 stage structure + storage battery drive prime + metal sphere and mercury with the increase ball riser (2F) Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 69 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater (2z) Various energy conservation cycle coalescing engines with drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 70 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Ascending and storing + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Accelerating metal spheres and water with compressed air to 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) Double energy driving cycle + Combined engine with various energy storage cycles with geothermal air heater (2z) in borehole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 71 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 72 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 73 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 74 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 75 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 77 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 78 stages + storage battery powered various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generator structure in 80 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 81 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + to make the storage battery driven various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power turbines in 84 stages + storage battery powered various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 85 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 86 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 87 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 88 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 89 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with three times the same diameter and the same shape and the same length of geothermal power generation turbine in 90 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 91 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 92 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 93 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 94 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 96 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 97 stages + storage battery powered various vessel prime + increase ball rising device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 98 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 99 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 100 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat and compress heat recovered from geothermal heat + assembly bolts with the same diameter and the same shape 5 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 102 stages + storage battery-powered various ships prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat by compressing geothermal heated air + assembly bolts with the same diameter and the same shape fitting bolt assembly Turbine diameter is doubled into multiple stages such as generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation structure with 103 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress heat heated by geothermal heat and recover heat by compressing heat from geothermal heat + assembly bolts with the same diameter and the same shape fitting bolt assembly 3 times the diameter of the turbine in multiple stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 104 stages + storage battery driven various ships prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + Compress the heated air with geothermal heat and recover the heated and compressed heat from the heated geothermal air + Combined bolts with the same diameter and shape of the same bolt assembly 4 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 105 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat and compress heat recovered from geothermal heat + assembly bolts with the same diameter and the same shape 5 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Heat recovery from heat and compression + Opposite all rotor blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters twice + Geothermal air heater (2z) is provided in drilling hole drilling machine .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 107 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Heat recovery from heat and compression + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters 3 times + Geothermal air heater (2z) is provided in various drilling holes .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 108 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Heat recovery from heat and compression + Opposite all rotor blades turbine horizontal axis (16A) drives 1 to 12 turbines 4 times the diameter of the turbine + Geothermal air heater (2z) is provided in drilling holes for various energy conservation cycle combined engines .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 109 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Heat recovery from heat and compression + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air heater (2z) is provided in drilling hole various energy storage cycle coalescing engine .   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 110 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Raise the head as much as possible with pumping device (1J) + Increase and save metal sphere and mercury with increase ball lift device (2F) + Compress geothermal heating air by compressing heating air + Compressed heat recovery of metal sphere and water Compressed air accelerates 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) + Boring machine with geothermal air heater (2z) Various energy conservation cycle coalescence engines installed in drill holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 111 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 112 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine with 113 stages + structure battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 114 stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 115 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 116 stages + plant electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 117 stages + Factory electrification prime + Increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 118 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 119 stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 120 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 6 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 7 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 8 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 9 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + full electrification house prime + metal ball with increasing sphere lift (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine 11-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine 12-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine 13 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 14-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 15-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere lift (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 16 stages + storage battery drive prime + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter approximately the same shape and the same length geothermal power generation turbine in 17 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 18 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 19 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 20 stages + storage battery drive prime + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 21 stages + plant electrification prime + increase ball rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is provided in 22 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 23 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 24 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 25 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 27 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 30 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length of geothermal power turbine installed in 31 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 32 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 35 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power turbine 36-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power turbine 37-stage structure + storage battery drive to make all kinds of cars primed + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 38-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine 39-stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 40 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 41 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 42 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 44 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 45 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 46 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 47 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 49 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 50 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) The energy saving cycle coalescence engine that drives the turbine diameter twice and the geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive and cold use prime + geothermal air to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 54 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 55 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 56 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 57 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided 58 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 59 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 60 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and approximately the same shape and the same length of geothermal power generator 61-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine 62-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine 63 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine 64 stage structure + storage battery drive to make all kinds of cars primed + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine 65-stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering compressed heat by heating and compressing heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 68 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 69 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 70 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 71 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 72 stages + plant electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 73 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 74 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 75 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 78 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine structure with 79 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 80 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 81 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 82 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 83 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 84 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 85 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 86 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length Geothermal power generation turbine 87 stage structure + storage battery drive various automobile prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 25 times the same diameter and approximately the same shape and the same length of geothermal power turbine 88 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with double diameter, same shape, same length, geothermal power turbine with 89-stage structure + storage battery-powered automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 90-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 91 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 92 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 93 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 96 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 97 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 98 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 100 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 102 stages + storage battery drive, electric drive and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure 104 stage + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 106 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + full electrified house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 108 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided 109 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1-12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power turbine installed in 110 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generator 111-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine 112-stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is double the same diameter and the same shape and the same length of geothermal power generation turbine 113 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 114 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 115 stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 116 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive and cold use prime heat + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in one stage + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in two stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 3 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 4 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 5 stages + factory electrification prime-up + ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 11 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 12 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power turbines are installed in 13 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines installed in 14 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 15 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times structure of geothermal power generation turbine with the same diameter and the same shape with 25 times the same size + battling battery powered cars + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17-stage structure of geothermal power generation turbine with the same diameter and the same shape with the same diameter + accelerating various battery-powered vehicles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 18-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 19 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 20-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 21 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 24 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 27 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) The energy saving cycle coalescence engine that drives the turbine diameter twice and the geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 31 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 32 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 33 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 34 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 35 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 36 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 37 stages + full electrification house prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 38 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 39 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 40 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is double the same diameter and approximately the same shape and the same length geothermal power generation turbine 41-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with three times the same diameter and approximately the same shape and length of geothermal power generation turbine 42-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and the same shape and the same length geothermal power generation turbine 43 stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 44 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 45-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 47 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 48 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 49 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 51 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy storage cycle coalescing engine with a heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided 52 stages + plant electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 53 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 55 stages + factory electrification prime + increase sphere rising device (2F) Mercury rises and stores + geothermal heat compresses heated air to recover heated and compressed heat from geothermal heated air + metal balls and water accelerate with compressed air to 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine in 57 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + storage battery drive, electric drive and chilling utilization + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 60 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 61 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 62 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 63 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 64 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 65 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 66-stage structure + battery-powered various automobiles primed + ball increase device (2F) with metal ball + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine 67 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drives 1 to 12 turbine diameters 3 times by the opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 68 stage structure + storage battery drive various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generator 69-stage structure + storage battery drive to make all kinds of automobiles + metal balls with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 70 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) is 8 times the same diameter approximately the same shape and the same length geothermal power turbine 71 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generator 72 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power turbine 73 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) is 11 times the same diameter approximately the same shape and the same length geothermal power generation 74 stage structure + storage battery drive prime + increase ball riser (2F) with metal sphere and mercury Ascending and storing + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generator 75 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Ascending and storing + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Accelerating metal spheres and water with compressed air to 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) A combination of various energy conservation cycles with a triple diameter drive and a geothermal air heater (2z) in the borehole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) is 13 times the same diameter approximately the same shape and the same length geothermal power generator 76 stage structure + storage battery drive prime + increase sphere riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravitational geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 77 stage structure + storage battery drive prime + metal ball and mercury with the increase ball riser (2F) Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 5 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 78 stage structure + storage battery drive prime + increase sphere lift device (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters twice with opposed all blade turbine horizontal axis (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and the same shape and the same length geothermal power generation turbine 79 stage structure + storage battery drive prime + increase ball riser (2F) with metal sphere and mercury Ascending and storing + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 17 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 80 stage structure + storage battery drive prime + metal sphere and mercury with the increase ball riser (2F) Ascending and storing + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Accelerating metal spheres and water with compressed air to 1 to 12 turbines with opposed all blade turbine horizontal axis (16A) Combined various energy storage cycle engines with 4x diameter drive + geothermal air heater (2z) in borehole drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 81 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + to make the storage battery driven various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power turbines in 84 stages + storage battery powered various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 85 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 86 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 87 stages + storage battery driven various vessel prime + increase ball rising device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 88 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 89 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with three times the same diameter and the same shape and the same length of geothermal power generation turbine in 90 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 91 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 92 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 93 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 94 stages + storage battery drive various vessel prime + increase ball rising device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 95 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 96 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 97 stages + storage battery powered various vessel prime + increase ball rising device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 98 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 99 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 100 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 102 stages + storage battery-powered various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heating air is compressed by geothermal heat, and the geothermal heating air is heated and compressed to recover heat + The turbine diameter of 1 to 12 turbines is doubled by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation structure with 103 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored in + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + The turbine diameter of the 1-12 turbines is tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 104 stages + storage battery driven various ships prime + increase sphere lifting device (2F) The metal sphere and mercury are raised and stored. + The heated air is compressed by geothermal heat, and the heated geothermal air is heated and compressed. + The turbine diameter of the 1-12 turbines is quadrupled by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 105 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal spheres and mercury are stored in an uplift and the heat of the geothermal heat is compressed by compressing the heat of the geothermal heat and the heat of the geothermal heating is recovered. Various energy storage cycle coalescing engine with drive + geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 106 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 107 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 108 stages + storage battery powered various ship priming + increasing sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 109 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 110 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) The metal sphere and mercury are stored in an ascending manner + the air heated by geothermal heat is compressed and the geothermal heated air is heated and compressed and heat is recovered + the metal sphere and water are accelerated by compressed air, and the opposed turbine blade horizontal axis (16A) is used. 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine with 111 stages + storage battery drive various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress heat heated by geothermal heat and recover heat by compressing heat from geothermal heat + assembly bolts with the same diameter and the same shape fitting bolt assembly 3 times the diameter of the turbine in multiple stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine in 112 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + Compress the heated air with geothermal heat and recover the heated and compressed heat from the heated geothermal air + Combined bolts with the same diameter and shape of the same bolt assembly 4 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 113 stages + storage battery driven various ships prime + increase sphere ascent device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat and compress heat recovered from geothermal heat + assembly bolts with the same diameter and the same shape 5 times the diameter of the turbine in multiple stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 114 stages + storage battery driven various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress air heated by geothermal heat and recover heat by compressing geothermal heated air + assembly bolts with the same diameter and the same shape fitting bolt assembly Turbine diameter is doubled into multiple stages such as generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 115 stages + storage battery powered various vessel prime + increase sphere lifting device (2F) Ascend and store metal spheres and mercury with + compress heat heated by geothermal heat and recover heat by compressing heat from geothermal heat + assembly bolts with the same diameter and the same shape fitting bolt assembly 3 times the diameter of the turbine in multiple stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 116 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Opposing all rotor blades horizontal axis (16A) drives 1 to 12 turbines 4 times the diameter + various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 117 stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives 5 times the diameter of 1-12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 118 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collecting + Drives double turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Various energy conservation cycle coalescence engine with geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 119 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collected + Drives 1 to 12 turbine diameters 3 times with opposed horizontal blade turbine horizontal axis (16A) + Various energy conservation cycle coalescence engine with geothermal air heater (2z) in borehole drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase head by pumping device (1J) + Increase and store metal spheres and mercury by increasing ball rising device (2F) + Compress heat of geothermal heating air by compressing heating air by geothermal heat Collect + Accelerate metal balls and water with compressed air and drive 1 to 12 turbines 4 times the diameter of opposed full blade turbine horizontal axis (16A) + Install geothermal air heater (2z) in drilling hole Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in two stages + storage battery drive, electric drive, and cold energy prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbines are installed in 6 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 9 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) The energy saving cycle coalescence engine that drives the turbine diameter twice and the geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 12 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 13 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 14 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 16 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 17 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 18 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 19 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 20 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 21-stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 23 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 24-stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 25 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 27 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 30 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 31 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 32 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 35 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 36 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 37 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 38 stages + storage battery drive, electric drive and cold energy use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 39 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 41 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 42 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 43 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 44 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 45 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power turbine 46-stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 47 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) is 9 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 48 stage structure + storage battery driven various automobiles + metal ball with increasing sphere lift (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and the same shape and the same length geothermal power generation turbine 49-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 50 times structure of geothermal power turbine with 11 times the same diameter and the same shape and length + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive and cold use prime + geothermal air to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 54 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 55 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters 3 are driven by opposed horizontal blade turbine horizontal axis (16A) and geothermal air heater (2z) is provided in the drilling hole of the boring machine by air acceleration.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 56 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 57 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided 58 stages + factory electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 59 stages + plant electrification prime + increase sphere lift device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 60 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 61 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbines in 62 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy conservation cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 64 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbines in 65 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 66 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 67 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 68 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power turbine installed in 69 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 70 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 71 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 72-stage structure + storage battery drive various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 73 stage structure + storage battery drive various cars prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 74 stage structure + storage battery drive various automobiles primed + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 75 stage structure + storage battery drive to make all kinds of cars primed + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 78 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine structure with 79 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 80 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 81 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 82 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 83 stages + factory electrification prime-up + sphere riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 84 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 85 stages + factory electrification prime + increase sphere lifting device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 86 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 89 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) three times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 91 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 92 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 93 stages + Fully electrified house prime + Metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 94 stages + full electrified house prime + metal ball with increasing sphere lift (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 8 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 95 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and length of geothermal power generation turbine 96-stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 10 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 97 stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 98 stage structure + storage battery drive various automobiles primed + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter and approximately the same shape and length of geothermal power generation turbine 99 stage structure + storage battery drive to make all kinds of cars primed + increase sphere lifting device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine 100 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 102 stages + storage battery drive, electric drive and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure 104 stage + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive, and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power turbine is installed in 106 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 108 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 109 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 110 stages + factory electrification prime + increase sphere riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) The energy saving cycle coalescence engine that drives the turbine diameter twice and the geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 111 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 112 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine with 113 stages + structure battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 3 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 114 stages + storage battery drive, electric drive and chilling use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 115 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 116 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 117 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 118 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 119 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 120 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 4 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length of geothermal power turbine 1 stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine two-stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine three-stage structure + storage battery drive various automobiles primed + sphere riser (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power turbine 4 stage structure + storage battery drive to make all kinds of cars primed + sphere riser (2F) metal sphere + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 5 stage structure + storage battery drive to make all kinds of automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 10 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power turbines are installed in 11 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 12 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 13 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 14 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 15 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 16 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine in 17 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 19 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 20 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 21 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 22 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 23 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 24 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 25 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 5 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 26 stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine 27 stage structure + storage battery drive various automobiles prime + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy storage cycle coalescing engine with air heater (2z) in borehole drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and approximately the same shape and length of geothermal power generation turbine 28-stage structure + storage battery drive to make all kinds of cars primed + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 14 times the same diameter and the same shape and the same length of geothermal power generation turbine 29-stage structure + storage battery driven various automobiles + metal ball with increasing sphere raising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 30 stage structure + storage battery drive to make various automobiles primed + ball increase device (2F) with metal sphere + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 31 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 32 stages + storage battery drive, electric drive, and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 33 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 34 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 35 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbine diameters three times on the opposed all blade turbine horizontal axis (16A) + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 36 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 37 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 38 stages + plant electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 39 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 40 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 41 stages + storage battery drive, electric drive, and cold energy use + geothermal heat Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 42 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 44 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 45 stages + storage battery drive, electric drive, and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 5 times the diameter of opposed full blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 7 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 46 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 47 stages + full electrified house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 9 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 48 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 49 stages + full electrification house prime + metal ball with increase ball riser (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 50 stages + full electrification house prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives twice the turbine diameter + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 51 stage structure + storage battery drive various automobiles primed + ball increase device (2F) metal sphere + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Drives 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine 52 stage structure + storage battery driven various automobiles primed + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Drives 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 53 stage structure + storage battery drive various automobiles primed + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed heat + Turn the horizontal axis (16A) of the opposed rotor blades to drive 5 times the diameter of 1 to 12 turbines + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbine 54-stage structure + storage battery drive to make all kinds of cars primed + ball increase device (2F) with metal ball + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed heat from geothermal heating + Drive double the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 55 stage structure + storage battery powered various automobiles + metal ball with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing geothermal heat + Compressing metal spheres and water with compressed air to 1-12 on the opposed all blade turbine horizontal axis (16A) Combined engine with various energy storage cycles that drives the turbine diameter 3 times + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine in 57 stages + storage battery drive, electric drive and cold energy use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + storage battery drive, electric drive and chilling utilization + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 59 stages + storage battery drive, electric drive and chilled heat utilization + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 60 stages + storage battery drive, electric drive and chilling use + geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated to drive 1 to 12 turbines 4 times in diameter with opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 61 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 62 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 63 stages + factory electrification prime + increase sphere riser (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 64 stages + factory electrification prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with twice the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 65 stages + factory electrification prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 5 times the turbine diameter of the engine + geothermal air heater (2z) in the drilling hole drilling machine various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive and chilling use + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with 1 to 12 turbine diameters driven by shaft (16A) + geothermal air heater (2z) in drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with a shaft (16A) driving 1 to 12 turbine diameters 3 times + a geothermal air heater (2z) in a drilling hole.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 68 stages + storage battery drive, electric drive and cold use prime heat + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Various energy storage cycle coalescing engines with shafts (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heaters (2z) in drilling holes.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 69 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere riser (2F) + Compress geothermal heating air and heat and compress heat from geothermal heating + Horizontal opposed rotor blades horizontally Drives 1 to 12 turbines 5 times on shaft (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole.   Opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 70 stages + storage battery drive, electric drive and cold use prime + geothermal heat to geothermal air Collect by heater (2z) + Increase and store metal spheres and mercury by increasing sphere rising device (2F) + Compress geothermal heating air by heating and compressing geothermal heating air + Compress metal balls and water Various energy conservation cycle coalescing engines in which air is accelerated and 1 to 12 turbine diameters are driven by the opposed horizontal blade turbine horizontal axis (16A) + geothermal air heater (2z) is provided in the drilling hole.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in multiple stages + full electrified house prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in multiple stages + full electrified house prime + increase sphere rising device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and length of geothermal power generation Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines + Fully electrified house prime + Increase ball riser (2F) Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposing metal sphere Mercury gravity geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power turbines are installed in multiple stages + full electrification house prime + increase ball riser (2F) Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) This is a combined engine with various energy storage cycles that drives 3 times the diameter of the turbine + geothermal air heater (2z) in the drilling hole.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine multistage structure + storage battery drive various automobiles primed + Intensifying sphere lifting device (2F) Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 4 to 12 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power turbine multi-stage structure + storage battery drive various automobiles primed + ball increase device (2F) with metal sphere Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposed all blade turbine horizontal shaft (16A) drives 1 to 12 turbine diameters 5 times + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 15 times the same diameter and approximately the same shape and the same length of geothermal power generation Mercury is stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 12 turbine diameters double + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 16 times the same diameter and approximately the same shape and length of geothermal power generation Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) drives 1 to 3 turbine diameters + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 17 times the same diameter and approximately the same shape and length of geothermal power generation Mercury is stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + Metal balls and water are accelerated by compressed air and 1 to 12 on the opposed all blade turbine horizontal axis (16A) 4 times the turbine diameter of the engine + various energy storage cycle coalescence engine with geothermal air heater (2z) provided in the drilling hole.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine + primed storage battery drive + metal sphere and mercury rise with the increase ball riser (2F) Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 5 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times the same diameter and approximately the same shape and the same length geothermal power generation turbine + primed storage battery drive + metal sphere and mercury rise with the increase ball riser (2F) Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters twice with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times the same diameter and approximately the same shape and the same length geothermal power generation turbine + primed storage battery drive + metal ball and mercury ascend with the sphere rising device (2F) Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) is 21 times the same diameter and approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + increase sphere riser (2F) raise metal sphere and mercury Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines. Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times the same diameter and the same shape and the same length geothermal power generation turbine + primed storage battery drive + metal sphere and mercury rise with the increase ball riser (2F) Preserving + Compressing heated air with geothermal heat to heat and compressing geothermal heated air + Compressing metal spheres and water with compressed air to 1 to 12 turbine diameters with opposed rotor blade horizontal axis (16A) 5x drive + geothermal air heater (2z) combined with various energy storage cycle engines in drilling holes.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine + battery drive prime Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters twice with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times the same diameter and the same shape and the same length geothermal power generation turbine + primed storage battery drive + metal sphere and mercury rise with the increase ball riser (2F) Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Driving 1 to 12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine + primed storage battery drive + metal sphere and mercury rise with the increase ball riser (2F) Preserving + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Drives 4 times the turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) + Geothermal air heater ( 2z) Various energy storage cycle coalescing engines provided in drilling holes of boring machines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines 5 times in 1 stage with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Generating 1 to 12 turbines twice in two stages etc. with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 3 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 3 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + 4 times the diameter of 1 to 12 turbines 4 times on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + (5) 5 times the diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 6 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 7 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 8 times the diameter of 1 to 12 turbines 4 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all-blade turbine horizontal axis (16A) to increase the turbine diameter 5 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines by 10 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heated air by geothermal heat and recovers heated air by heating and compression + recovers the turbine diameter of 1 to 12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbine compressed horizontal heat turbine (16A) to 12 times the turbine diameter 4 times 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 13 turbine diameters from 1 to 12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 14 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbines with opposed all-blade turbine horizontal axis (16A) to increase turbine diameter of 1 to 12 turbines by 15 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase the diameter of 1 to 12 turbines by 4 times 16 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats up and compresses heat from compressed air turbine turbine shaft (16A) 17 times turbine diameter 5 times 17 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats and compresses heat from geothermal heating air + doubles turbine diameter of 1 to 12 turbines by 18 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed air + Heat and compress heat recovered from heat + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters 3 times 19 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times by the opposed horizontal blade turbine horizontal axis (16A) 20 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbine air shaft (16A) opposed to 1 to 12 turbine diameters 5 times 21 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat the compressed air from the turbine blade (16A) to double the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter of 1 to 12 turbines by 23 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 24 times the diameter of 1 to 12 turbines 4 times on the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 25 times the diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 26 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Increase the turbine diameter of 1 to 12 turbines by 27 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all-blade turbine horizontal axis (16A) to increase turbine diameter 4 times by 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all-blade turbine horizontal axis (16A) to reduce turbine diameter 5 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Twice the diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 30 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 31 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 32 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + 5 times the same diameter of the fitting bolt assembly turbine with the same diameter and the same shape to 33 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Reassemble the fitting bolt assembly turbine diameter of the same diameter and the same shape to 34 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly with the same diameter and shape of the same shape 3 times the diameter of the turbine to 35 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly turbine diameter 4 times the same diameter and the same shape to 36 stages etc. Generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from geothermal heated air + Fit bolt assembly with the same diameter and the same shape 5 times the turbine diameter to 37 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine with generator and heat pump in 38 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 39 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 40 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of opposed all rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 41 stages etc. with 5 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine with generator and heat pump in 42 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + the turbine diameter of 1 to 12 turbines is quadrupled to 48 stages with the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat, recover the heated air heat by compressing the heat of the geothermal heat + 49 stages of 5 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heating + Horizontal turbine axis (16A) of opposing blades doubles the diameter of 1 to 12 turbines by 50 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal axis (16A) on the opposed rotor blade triples the diameter of 1 to 12 turbines to 51 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated compressed heat recovered + Turbine horizontal axis (16A) facing the turbine 12 to 4 times the turbine diameter 4 times 52 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters double 58 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 59 stages to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 60 stages of 4 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + 1 to 12 turbine diameters are increased by 1 stage on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in two stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 4 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 5 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all blade turbine horizontal axis (16A) 6 stages with 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 7 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from heated geothermal air + 1 to 12 turbine diameters 5 times 13 stages with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing the heat of the geothermal heated air + 14 stages of double turbine diameters of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + The turbine diameter of 1 to 12 turbines is tripled 15 times on the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +16 stages of 4 times the diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + 17 stages of 5 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is recovered by heating and compressing heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal axis (16A) in 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades Horizontal axis (16A) 24 stages of 12 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbines 5 times the turbine diameter on the horizontal shaft (16A) 25 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages of 1-12 turbine diameter double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 27 stages, 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 1 to 12 turbine diameters 4 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + 1 to 12 turbines 5 times the diameter of the turbines on the opposed horizontal blade turbine horizontal axis (16A) 29 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 30 stages of double turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 3 times in 31 stages with opposed horizontal blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) is 32 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine axis (16A) of the opposed rotor blades doubles the diameter of 1 to 12 turbines to 38 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated air heat by compressing heat + Heating and compressing heat recovered from geothermal heating + Horizontal axis (16A) of opposed rotor blades, 1 to 12 turbine diameters tripled to 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heating air by heating + Heat recovery from the compressed air + Opposite all blade turbine horizontal axis (16A) 40 times the turbine diameter 4 times 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat to recover heat of compressed heat of geothermal heating + Reverse turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times 41 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 42 turbines with double diameter of 1 to 12 turbines with horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 48 stages of 1 to 12 turbine diameters 4 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + Turbine diameter of 1 to 12 turbines is increased by 49 stages on the opposed all blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Heat of compressed air is compressed by geothermal heat and heat of compressed air is recovered. + The turbine diameter of 1-12 turbines is doubled by 50 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Turbine diameter of 1-12 turbines is increased by 51 stages on the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is increased by 52 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine blade on the horizontal axis (16A) 53 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters double 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal shaft (16A) in 55 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all rotor blade horizontal axis (16A) 56 stages 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal shaft (16A) 57 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat to recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine axis (16A) of the opposed rotor blades 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposing all blade turbine horizontal axis (16A) 5 to 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of heated geothermal air +6 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated air heat by compressing the heat + Heat from the opposed turbine blades horizontal axis (16A) 7 times the diameter of 1 to 12 turbines 7 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbines 5 times the diameter of the turbine in the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 14 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 15 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 16 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) has 17 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and the geothermal heated air is heated and compressed to recover heat + 18 turbine stages with double diameters of 1 to 12 turbines using the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 19 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 20 stages, 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 21 stages with 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 22 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 26 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 27 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + The turbine diameter is 4 times as large as 1 to 12 turbines on the horizontal shaft (16A) on the opposite side, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Horizontal turbine shaft (16A) on opposing blades 5 times diameter of 12 turbines, 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + Turbine horizontal shaft (16A) opposed to 1-12 turbine diameter doubled 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is tripled by 31 stages, etc. with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposed all blade turbine horizontal shaft (16A) 4 to 12 turbine diameters, 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat. + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters are doubled to 38 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + 39 stages of 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and the geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 40 stages of 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) is 41 stages with 5 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 42 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 43 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 45 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) 46 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 47 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc. with 4 times the turbine diameter of 1 to 12 in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 5 to 53 turbine diameters, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines in 54 stages, etc. with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters tripled to 55 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposed all blade turbine horizontal axis (16A) 56 times 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + Rotating turbine blades (16A) facing each turbine blade with 5 times the turbine diameter 5 times 57 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 4 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 5 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all blade turbine horizontal axis (16A) 6 stages with 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 7 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 4 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 9 stages of 1 to 12 turbine diameters 5 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 10 to 12 turbine diameter doubles Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heating air with geothermal heat and recovering the heated and compressed heat from the geothermal heating air + Twelve stages of 4 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 14 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages with 5 times the diameter of 1 to 12 turbines.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + The turbine diameter of 1 to 12 turbines is doubled 18 times by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat, recover the heated air heat by compressing the heat of the geothermal heating + 19 stages of the turbine diameter of 1 to 12 units on the horizontal shaft (16A) of the opposed rotor blades Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heat + Heat compression heat recovery of the counter-rotating blade turbine horizontal axis (16A) 20 to 4 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + Turbine horizontal shaft (16A) facing the turbine 12 to 5 times the turbine diameter 5 times 21 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) facing the turbine blades doubles the diameter of 1 to 12 turbines in 22 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 26 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 27 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 1 to 12 turbine diameters 4 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + 1 to 12 turbines 5 times the diameter of the turbines on the opposed horizontal blade turbine horizontal axis (16A) 29 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 30 stages of double turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 3 times in 31 stages with opposed horizontal blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) is 32 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 5 times 33 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters doubled 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + The turbine diameter of 1 to 12 turbines is tripled 35 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) is 36 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in (16A) with 1 to 12 turbine diameters doubled to 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 39 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages of 4 to 12 turbine diameters in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 41 stages and the like.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters doubled, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages, etc.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Heat compression heat recovery of the counter-rotating blade turbine horizontal axis (16A) 43 times 3 times the turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 4 times the diameter of 1-12 turbines, 44 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat + Opposed all rotor blades horizontal axis (16A), 5 to 45 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) doubles the diameter of 1-12 turbines to 46 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated heat by compressing the heat of the geothermal heat + The counter-rotating blade turbine horizontal shaft (16A) increases the turbine diameter of 1 to 12 turbines by 47 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc. with 4 times the turbine diameter of 1 to 12 in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine blade on the horizontal axis (16A) 53 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters double 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal shaft (16A) in 55 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all rotor blade horizontal axis (16A) 56 stages 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal shaft (16A) 57 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters double 58 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 59 stages to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 60 stages of 4 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + 1 to 12 turbine diameters are increased by 1 stage on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in two stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines tripled to 3 stages, etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 4 to 4 turbine diameters of 4 turbines with 1 to 12 turbines on the horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines 5 times in 5 stages etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbine diameters to 6 stages, etc. on the opposed horizontal blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbine diameters to 7 stages, etc. with the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 4 to 12 turbine diameters to 8 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + The geothermal heating air is compressed by heating and compressed heat recovery is recovered + Heat generation by compressing the geothermal heating air + Power generation from 1 to 12 turbines 5 times to 9 stages etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbine diameters to 10 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + The geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered. + The counter-rotating blade turbine horizontal shaft (16A) generates 1 to 12 turbine diameters triple to 11 stages, etc. Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 4 to 12 turbine diameters to 12 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 13 turbine diameters from 1 to 12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 14 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbines with opposed all-blade turbine horizontal axis (16A) to increase turbine diameter of 1 to 12 turbines by 15 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase the diameter of 1 to 12 turbines by 4 times 16 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats up and compresses heat from compressed air turbine turbine shaft (16A) 17 times turbine diameter 5 times 17 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats and compresses heat from geothermal heating air + doubles turbine diameter of 1 to 12 turbines by 18 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed air + Heat and compress heat recovered from heat + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters 3 times 19 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times by the opposed horizontal blade turbine horizontal axis (16A) 20 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbine air shaft (16A) opposed to 1 to 12 turbine diameters 5 times 21 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat the compressed air from the turbine blade (16A) to double the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter of 1 to 12 turbines by 23 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 24 times the diameter of 1 to 12 turbines 4 times on the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 25 times the diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 26 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Increase the turbine diameter of 1 to 12 turbines by 27 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all-blade turbine horizontal axis (16A) to increase turbine diameter 4 times by 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all-blade turbine horizontal axis (16A) to reduce turbine diameter 5 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Twice the diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) 30 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 31 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 32 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 5 times 33 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines by the horizontal axis (16A) of the opposed turbine blades 34 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 3 times 35 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 4 times 36 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter 5 times 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 1 to 12 turbine diameters doubled by opposed horizontal blade turbine horizontal axis (16A) 38 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines to 39 times the turbine diameter on the opposed rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 40 times the diameter of 1 to 12 turbines 4 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines by 5 times with the opposed all blade turbine horizontal axis (16A) 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed air + Heat and compress heat recovery + 1 to 12 turbine diameters doubled by opposed horizontal blade turbine horizontal axis (16A) 42 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + Fit bolt assembly with the same diameter and shape of almost the same 3 times the diameter of the turbine to 43 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly turbine diameter 4 times the same diameter and the same shape to 44 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress geothermal heating air and heat and compress geothermal heated air + Recover heat from compression and heat + Fit bolt assembly with the same diameter and shape of the same 5 times the turbine diameter to 45 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal heat + Heat-compressed heat recovered from the same heat diameter + Bolt assembly of approximately the same shape and diameter Double the turbine diameter to 46 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly with the same diameter and approximately the same shape The turbine diameter is tripled to 47 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generators and heat pumps in 48 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 49 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 50 stages, etc., with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 51 stages etc. with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 52 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposed all blade turbine horizontal shaft (16A) doubles turbine diameter of 1-12 units to 58 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 59 times 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 1 to 12 turbines 4 times the diameter of the turbine blade (16A), 60 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover the heat of compressed geothermal air + Recovery of heat from compressed air +1 to 12 turbines with a horizontal axis (16A) on the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated and compressed heat from the heated geothermal air + Double the turbine diameter of 1 to 12 turbines in two stages with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 6 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 7 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 4 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 9 stages of 1 to 12 turbine diameters 5 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 10 to 12 turbine diameter doubles Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heating air with geothermal heat and recovering the heated and compressed heat from the geothermal heating air + Twelve stages of 4 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbines 5 times the diameter of the turbine in the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 14 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 15 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 16 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) has 17 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + The turbine diameter of 1 to 12 turbines is tripled by 23 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heating + Horizontal turbine shaft (16A) on the opposing rotor blade 4 times the turbine diameter 4 times 24 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A), 25 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters are doubled 26 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat and compressed heat recovered from the heated + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters tripled to 27 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and a generator and heat pump are provided in 28 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 29 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compression heat. + 1 to 12 turbine diameters 5 times 33 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters doubled 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + The turbine diameter of 1 to 12 turbines is tripled 35 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) is 36 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat. + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters are doubled to 38 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + 39 stages of 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and the geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 40 stages of 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) is 41 stages with 5 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 42 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + the turbine diameter of 1 to 12 turbines is quadrupled to 48 stages with the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat, recover the heated air heat by compressing the heat of the geothermal heat + 49 stages of 5 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heating + Horizontal turbine axis (16A) of opposing blades doubles the diameter of 1 to 12 turbines by 50 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal axis (16A) on the opposed rotor blade triples the diameter of 1 to 12 turbines to 51 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated compressed heat recovered + Turbine horizontal axis (16A) facing the turbine 12 to 4 times the turbine diameter 4 times 52 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters double 58 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 59 stages to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 60 stages of 4 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + 1 to 12 turbine diameters are increased by 1 stage on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in two stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 4 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 5 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all blade turbine horizontal axis (16A) 6 stages with 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 7 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from heated geothermal air + 1 to 12 turbine diameters 5 times 13 stages with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing the heat of the geothermal heated air + 14 stages of double turbine diameters of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + The turbine diameter of 1 to 12 turbines is tripled 15 times on the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +16 stages of 4 times the diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + 17 stages of 5 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is recovered by heating and compressing heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal axis (16A) in 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades Horizontal axis (16A) 24 stages of 12 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbines 5 times the turbine diameter on the horizontal shaft (16A) 25 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages of 1-12 turbine diameter double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 27 stages, 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 1 to 12 turbine diameters 4 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + 1 to 12 turbines 5 times the diameter of the turbines on the opposed horizontal blade turbine horizontal axis (16A) 29 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 30 stages of double turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 3 times in 31 stages with opposed horizontal blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) is 32 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine axis (16A) of the opposed rotor blades doubles the diameter of 1 to 12 turbines to 38 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated air heat by compressing heat + Heating and compressing heat recovered from geothermal heating + Horizontal axis (16A) of opposed rotor blades, 1 to 12 turbine diameters tripled to 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heating air by heating + Heat recovery from the compressed air + Opposite all blade turbine horizontal axis (16A) 40 times the turbine diameter 4 times 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat to recover heat of compressed heat of geothermal heating + Reverse turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times 41 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 42 turbines with double diameter of 1 to 12 turbines with horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 48 stages of 1 to 12 turbine diameters 4 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + Turbine diameter of 1 to 12 turbines is increased by 49 stages on the opposed all blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Heat of compressed air is compressed by geothermal heat and heat of compressed air is recovered. + The turbine diameter of 1-12 turbines is doubled by 50 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Turbine diameter of 1-12 turbines is increased by 51 stages on the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is increased by 52 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine blade on the horizontal axis (16A) 53 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters double 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal shaft (16A) in 55 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all rotor blade horizontal axis (16A) 56 stages 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal shaft (16A) 57 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat to recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine axis (16A) of the opposed rotor blades 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposing all blade turbine horizontal axis (16A) 5 to 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of heated geothermal air +6 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated air heat by compressing the heat + Heat from the opposed turbine blades horizontal axis (16A) 7 times the diameter of 1 to 12 turbines 7 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbines 5 times the diameter of the turbine in the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 14 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 15 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 16 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) has 17 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and the geothermal heated air is heated and compressed to recover heat + 18 turbine stages with double diameters of 1 to 12 turbines using the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 19 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 20 stages, 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 21 stages with 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 22 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 26 stages, etc., with 1 to 12 turbine diameters doubled at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 27 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + The turbine diameter is 4 times as large as 1 to 12 turbines on the horizontal shaft (16A) on the opposite side, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Horizontal turbine shaft (16A) on opposing blades 5 times diameter of 12 turbines, 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + Turbine horizontal shaft (16A) opposed to 1-12 turbine diameter doubled 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is tripled by 31 stages, etc. with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposed all blade turbine horizontal shaft (16A) 4 to 12 turbine diameters, 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat. + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters are doubled to 38 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the geothermal heated air + 39 stages of 1 to 12 turbine diameters 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and the geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 40 stages of 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) is 41 stages with 5 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 42 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 43 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 45 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + Opposite all blade turbine horizontal axis (16A) 46 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 47 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc. with 4 times the turbine diameter of 1 to 12 in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 5 to 53 turbine diameters, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines in 54 stages, etc. with opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters tripled to 55 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposed all blade turbine horizontal axis (16A) 56 times 1 to 12 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + Rotating turbine blades (16A) facing each turbine blade with 5 times the turbine diameter 5 times 57 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 3 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 4 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 5 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all blade turbine horizontal axis (16A) 6 stages with 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 7 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 4 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 9 stages of 1 to 12 turbine diameters 5 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 10 to 12 turbine diameter doubles Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heating air with geothermal heat and recovering the heated and compressed heat from the geothermal heating air + Twelve stages of 4 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compressing and recovering heat by compressing geothermal heating air + Various energy storage cycles with generators and heat pumps in 13 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers the heat of compressed geothermal heating air + Various energy storage cycles with generators and heat pumps in 14 stages with 1 to 12 turbine diameters doubled on the opposed all blade turbine horizontal axis (16A) Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers heat from compressed geothermal heating air + Various energy storage cycles with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters tripled on the opposed all blade turbine horizontal axis (16A) Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers the heat of compressed geothermal heating air + Various energy storage cycles with generators and heat pumps in 16 stages etc. with 4 times the diameter of 1 to 12 turbines at the opposed horizontal blade turbine horizontal axis (16A) Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compressing and recovering heat from compressed geothermal heating air + Various energy storage cycles with generators and heat pumps in 17 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal shaft (16A) Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator or heat pump is provided in 26 stages or the like.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 28 times with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 30 times the diameter of 1 to 12 turbines at the horizontal axis (16A) of opposed turbine blades Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat of the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 31 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 32 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat recovery from compressed air turbines + 1 to 12 turbines 4 times the diameter of the horizontal shaft (16A) 33 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 5 times with the opposed all blade turbine horizontal axis (16A) 34 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbine compressed horizontal axis (16A) to double the diameter of 1-12 turbines 35 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1-12 turbines by 36 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + recovers 4 times the turbine diameter 4 times from 1 to 12 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter 5 times 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) 39 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + 40 times the diameter of 1 to 12 turbines 3 times on opposite horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 42 times the diameter of turbines of 1 to 12 turbines by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Rotate 1 to 12 turbines to double the turbine diameter 43 on the opposed all-blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 44 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 45 times the diameter of 1 to 12 turbines 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 46 times the diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 47 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + (16A) opposed turbine blades 3 to 48 times the turbine diameter 3 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Improving the turbine diameter of 1 to 12 turbines by 49 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 50 times the diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) on the opposite side 51 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbines + 1 to 12 turbine diameters tripled by the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + 53 times the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) 54 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + opposite turbine blade horizontal axis (16A) to double turbine diameter of 1 to 12 turbines 55 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 56 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter 4 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and heated heat from geothermal heated air + Fit bolt assembly with the same diameter and approximately the same shape 5 times the turbine diameter to 58 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and approximately the same shape Assembly bolt diameter is doubled to 59 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Add the assembly bolts of the same diameter and the same shape to the assembly bolt assembly turbine diameter to 60 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly turbine diameter 4 times the same diameter and shape The generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and the same shape 5 times the diameter of the turbine Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 4 stages with 1 to 12 turbine diameters 3 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 6 stages with 1 to 12 turbine diameters 5 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in multiple stages + electric drive prime + geothermal heat compresses the heating air Various energy storage cycle coalescing engines that provide heat and compressed heat recovery of the heated air + a horizontal axis (16A) of opposed rotor blades with 4 to 12 turbine diameters and 13-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in multiple stages + electric drive prime + geothermal heat compresses the heating air Various energy storage cycle coalescing engines that recover the heated compressed air by heating and heat + compressed counter turbine blade horizontal axis (16A) with 5 turbine diameters of 1 to 12 turbines and 14 stages of generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in multiple stages + electric drive prime + geothermal heat compresses the heating air Various energy storage cycle coalescing engines with a generator and a heat pump with 15 to 12 turbine diameters doubled by the opposed horizontal blade turbine horizontal axis (16A) that recovers heated compressed air by heating and compression.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in multiple stages + electric drive prime + geothermal heat compresses the heating air Various energy storage cycle coalescing engines that provide heat and compressed heat recovery of the heated air + counter-all blade blade horizontal axis (16A) with 1 to 12 turbine diameters tripled to 16 stages, such as generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in multiple stages + electric drive prime + geothermal heat compresses the heating air Various energy storage cycle coalescing engines that recover the heated compressed air by heat and heat + the counter-all blade turbine horizontal shaft (16A) is equipped with generators and heat pumps in 17 stages with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + power increase sphere (2E) with a small diameter to drive the acceleration turbine + heating with geothermal heat Compressed air and heated and compressed heat recovered from geothermal heated air + 1 to 12 turbines with a horizontal axis (16A) facing the turbine blades (16A), 18 stages, etc. Energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + power increase sphere (2E) with a small diameter to drive the acceleration turbine + heating with geothermal heat Compressed air to heat and compress heat from geothermal heating air + Various turbines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled on the opposed all blade turbine horizontal axis (16A) Energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + power increase sphere (2E) with a small diameter to drive the acceleration turbine + heating with geothermal heat Compressed air to heat and compress heat from geothermal heating air + Various types of generators and heat pumps with 1 to 12 turbine diameters tripled to 20 stages etc. on the opposed all blade turbine horizontal axis (16A) Energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + power increase sphere (2E) with a small diameter to drive the acceleration turbine + heating with geothermal heat Compressed air to heat and compress geothermal heated air + Heat recovery from heat and heat + Various turbines equipped with generators and heat pumps in 21 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) Energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + power increase sphere (2E) with a small diameter to drive the acceleration turbine + heating with geothermal heat Compressed air to heat and compress the geothermal heated air + Heat recovery from heat and heat + Various turbines equipped with generators and heat pumps in 22 stages, etc. Energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters doubled 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 24 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal axis (16A) 25 stages of 4 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 27 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 33 stages or the like for 4 to 16 turbine diameters at 16A.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) of the opposed 12 blades 5 times the diameter of 38 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + Horizontal turbine shaft (16A) facing the turbine blade doubles the diameter of 1 to 12 turbines by 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating air + Reverse turbine blade horizontal shaft (16A), 40 stages for 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat to recover heated and compressed heat of geothermal heating air +42 stages of 1 to 12 turbines with 5 times the turbine diameter on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 48 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 49 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 50 stages of 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat recovery is performed + Opposite all blade turbine horizontal axis (16A) 52 times 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat from heated geothermal air + Two turbine diameters of 1 to 12 turbines in 3 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +4 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 4 to 1 turbine diameter 4 times 5 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times in 6 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heating air + Double turbine diameter of 1 to 12 turbines in 7 stages, etc. on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 13 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 14 stages of 1 to 12 turbines with 5 times the diameter of the turbine on the opposed horizontal blade turbine (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters are doubled to 15 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + 1 to 12 turbine diameters are increased by 28 stages on the opposed horizontal blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A), 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 1 to 12 turbine diameters are doubled by the counter-rotating blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) with 1 to 12 turbine diameters 3 times 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 43 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + 45 turbine stages with 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles the diameter of 1-12 turbines to 47 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbine diameters 4 times 53 stages, etc. on the opposed all-blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 5 times the diameter of the turbine blade (16A), 54 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Hardening the turbine diameter of 1 to 12 turbines by 55 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + 56-stages of 1-12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heat from compressed air by heating + Recovering heat from compressed heat + Opposing all rotor blades with horizontal axis (16A) 57 times 4 to 1 turbine diameter 4 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in 3 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 5 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades horizontal axis (16A) 6 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Double turbine diameters of 1 to 12 turbines are doubled by the opposed horizontal blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 9 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbine diameters 3 times in 12 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 1 to 12 turbine diameters 5 times 18 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Counter turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 19 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Two turbine diameters of 1 to 12 turbines at 20 stages, etc. with opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and the heated geothermal air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 21 times by the counter horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Turbine diameter of 1 to 12 turbines is doubled by 22 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposed all blade turbine horizontal axis (16A) 35 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heat + Heat compression heat recovery of the counter-rotating blade turbine horizontal shaft (16A), 43 stages of double diameter of 1-12 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters 3 times 44 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 45 stages for 4 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal air + Recovery of heat from compressed air + 46-stage turbine blades with a horizontal axis (16A) of 1 to 12 turbines 5 times larger Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Opposite all blade turbine horizontal shaft (16A) 47 times the diameter of 1-12 turbines doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 58 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat, recover the heated air heat by compressing the heat of the geothermal heating + 8 stages of 3 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat, recover the heated air heat by compressing the heat of the geothermal heat + 9 stages of 4 times the diameter of the turbine of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times 10 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposed all rotor blades horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal shaft (16A) 1-12 turbine diameter 3 times 12 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 17 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters doubled 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 24 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal axis (16A) 25 stages of 4 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 27 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbine diameters to 28 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated from compressed air + Power generation from 4 to 12 turbine diameters to 29 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbines 5 times to 30 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines to 31 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbine diameters to 32 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal heated air + Generating 1 to 12 turbines 4 times the diameter of the turbine to 33 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat of compressed geothermal heat + Heat generation by compressing the heat of the geothermal air + Generating 1 to 12 turbines with 5 times the turbine diameter to 34 stages, etc. with the horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing the geothermal heated air + Power generation from 1 to 12 turbine diameters to 35 stages, etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines tripled to 36 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal air + Power generation from 4 to 12 turbine diameters to 37 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter 5 times 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) 39 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + 40 times the diameter of 1 to 12 turbines 3 times on opposite horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 42 times the diameter of turbines of 1 to 12 turbines by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Rotate 1 to 12 turbines to double the turbine diameter 43 on the opposed all-blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 44 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 45 times the diameter of 1 to 12 turbines 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 46 times the diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 47 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + (16A) opposed turbine blades 3 to 48 times the turbine diameter 3 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Improving the turbine diameter of 1 to 12 turbines by 49 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 50 times the diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) on the opposite side 51 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbines + 1 to 12 turbine diameters tripled by the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + 53 times the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) 54 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + opposite turbine blade horizontal axis (16A) to double turbine diameter of 1 to 12 turbines 55 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 56 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter 4 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbines 5 times the diameter of the turbine blades (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Improving 59 times the diameter of 1 to 12 turbines with the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters tripled by opposed horizontal blade turbine horizontal axis (16A) 60 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 2 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heating air with geothermal heat and recover the heated and compressed heat from the geothermal heating air + 3 times the turbine diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Opposing all rotor blades with a horizontal axis (16A) 5 times 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbine + Counter turbine blade horizontal axis (16A) 6 to 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and shape of the same bolt assembly 3 times the diameter of the turbine to 8 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and the same shape 4 times the diameter of the turbine Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the diameter of the fitting bolt with the same diameter and shape of the same shape to 10 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and approximately the same shape Assembly bolt diameter is doubled to 11 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal balls and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat of the geothermal heated air + Combined bolts with the same diameter and the same shape 3 times the diameter of the turbine to 12 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + various energy storage cycle coalescing engines with generators and heat pumps in 13 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating + Collect as much as possible with the pump (2z) + Raise the head as much as possible with the pumping device (1J) + Ascend and store the metal sphere and mercury with the increase ball riser (2F) + Compress the geothermal heating air with geothermal heat Heat-compressed heat recovery + various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + various energy storage cycle coalescing engines with generators and heat pumps in 16 stages, etc., with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 4 times the horizontal axis (16A) of opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 23 turbines with double diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat and compression of geothermal heating air + Vertical turbine blade horizontal shaft (16A) 1 to 12 turbine diameters 3 times 24 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated and compressed heat recovered + Heated compressed turbine turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 25 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating + Recovery of heat from heat of compressed air +26 turbines with 5 times the diameter of 1-12 turbines at the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) facing the turbine 12 times the turbine diameter doubled 27 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressing heat. + 1 to 12 turbine diameters are doubled by the horizontal shaft (16A) on the opposite side to 35 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) of the opposed 12 blades 5 times the diameter of 38 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + Horizontal turbine shaft (16A) facing the turbine blade doubles the diameter of 1 to 12 turbines by 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating air + Reverse turbine blade horizontal shaft (16A), 40 stages for 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat to recover heated and compressed heat of geothermal heating air +42 stages of 1 to 12 turbines with 5 times the turbine diameter on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 48 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 49 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 50 stages of 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat recovery is performed + Opposite all blade turbine horizontal axis (16A) 52 times 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat from heated geothermal air + Two turbine diameters of 1 to 12 turbines in 3 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +4 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 4 to 1 turbine diameter 4 times 5 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times in 6 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heating air + Double turbine diameter of 1 to 12 turbines in 7 stages, etc. on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 13 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 14 stages of 1 to 12 turbines with 5 times the diameter of the turbine on the opposed horizontal blade turbine (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters are doubled to 15 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + 1 to 12 turbine diameters are increased by 28 stages on the opposed horizontal blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A), 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 1 to 12 turbine diameters are doubled by the counter-rotating blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) with 1 to 12 turbine diameters 3 times 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 43 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + 45 turbine stages with 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles the diameter of 1-12 turbines to 47 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbine diameters 4 times 53 stages, etc. on the opposed all-blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 5 times the diameter of the turbine blade (16A), 54 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Hardening the turbine diameter of 1 to 12 turbines by 55 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + 56-stages of 1-12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heat from compressed air by heating + Recovering heat from compressed heat + Opposing all rotor blades with horizontal axis (16A) 57 times 4 to 1 turbine diameter 4 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in 3 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 5 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades horizontal axis (16A) 6 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Double turbine diameters of 1 to 12 turbines are doubled by the opposed horizontal blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 9 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbine diameters 3 times in 12 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 17 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 1 to 12 turbine diameters 5 times 18 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Counter turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 19 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Two turbine diameters of 1 to 12 turbines at 20 stages, etc. with opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and the heated geothermal air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 21 times by the counter horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Turbine diameter of 1 to 12 turbines is doubled by 22 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposed all blade turbine horizontal axis (16A) 35 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heat + Heat compression heat recovery of the counter-rotating blade turbine horizontal shaft (16A), 43 stages of double diameter of 1-12 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters 3 times 44 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 45 stages for 4 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal air + Recovery of heat from compressed air + 46-stage turbine blades with a horizontal axis (16A) of 1 to 12 turbines 5 times larger Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Opposite all blade turbine horizontal shaft (16A) 47 times the diameter of 1-12 turbines doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 58 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat, recover the heated air heat by compressing the heat of the geothermal heating + 8 stages of 3 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat, recover the heated air heat by compressing the heat of the geothermal heat + 9 stages of 4 times the diameter of the turbine of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times 10 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposed all rotor blades horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal shaft (16A) 1-12 turbine diameter 3 times 12 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 17 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters doubled 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 24 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal axis (16A) 25 stages of 4 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 27 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbine diameters to 28 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated from compressed air + Power generation from 4 to 12 turbine diameters to 29 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbines 5 times to 30 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines to 31 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbine diameters to 32 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal heated air + Generating 1 to 12 turbines 4 times the diameter of the turbine to 33 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat of compressed geothermal heat + Heat generation by compressing the heat of the geothermal air + Generating 1 to 12 turbines with 5 times the turbine diameter to 34 stages, etc. with the horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing the geothermal heated air + Power generation from 1 to 12 turbine diameters to 35 stages, etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines tripled to 36 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal air + Power generation from 4 to 12 turbine diameters to 37 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter 5 times 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) 39 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + 40 times the diameter of 1 to 12 turbines 3 times on opposite horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 42 times the diameter of turbines of 1 to 12 turbines by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Rotate 1 to 12 turbines to double the turbine diameter 43 on the opposed all-blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1-12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 44 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 45 times the diameter of 1 to 12 turbines 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 46 times the diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 47 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + (16A) opposed turbine blades 3 to 48 times the turbine diameter 3 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Improving the turbine diameter of 1 to 12 turbines by 49 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 50 times the diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) on the opposite side 51 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbines + 1 to 12 turbine diameters tripled by the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + 53 times the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) 54 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + opposite turbine blade horizontal axis (16A) to double turbine diameter of 1 to 12 turbines 55 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 56 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter 4 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbines 5 times the diameter of the turbine blades (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Improving 59 times the diameter of 1 to 12 turbines with the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters tripled by opposed horizontal blade turbine horizontal axis (16A) 60 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 2 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heating air with geothermal heat and recover the heated and compressed heat from the geothermal heating air + 3 times the turbine diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Opposing all rotor blades with a horizontal axis (16A) 5 times 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbine + Counter turbine blade horizontal axis (16A) 6 to 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by heating and compressing geothermal heating + recovers heat and compression heat of geothermal heating + assembly bolt assembly turbine 3 times the same diameter and shape to 8 stages Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat from the geothermal heated air + 4 times the diameter of the fitting bolt assembly turbine with the same diameter and the same shape to 9 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat and compress heat recovery of geothermal heated air + 5 times the same diameter of a fitting bolt assembly turbine to 10 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Double the diameter of the fitting bolt assembly turbine with the same diameter and the same shape to 11 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat and compress heat recovered from geothermal heating + 3 times the same diameter fitting bolt assembly turbine to 12 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 13 stages with 1 to 12 turbine diameter 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 14 stages with 1 to 12 turbine diameters 5 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters doubled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy storage cycle coalescing engine with generator and heat pump in 16 stages with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 23 turbines with double diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat and compression of geothermal heating air + Vertical turbine blade horizontal shaft (16A) 1 to 12 turbine diameters 3 times 24 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated and compressed heat recovered + Heated compressed turbine turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 25 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating + Recovery of heat from heat of compressed air +26 turbines with 5 times the diameter of 1-12 turbines at the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) facing the turbine 12 times the turbine diameter doubled 27 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressing heat. + 1 to 12 turbine diameters are doubled by the horizontal shaft (16A) on the opposite side to 35 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters tripled by the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine blades on the opposed horizontal blade turbine (16A), 49 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Opposing all rotor blades with a horizontal axis (16A) 5 times the diameter of 1 to 12 turbines, 50 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 51 times with the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal axis (16A) 1-12 turbine diameter tripled 52 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 58 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in 3 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 5 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades horizontal axis (16A) 6 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Double turbine diameters of 1 to 12 turbines are doubled by the opposed horizontal blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) of the opposed rotor blades 4 times the turbine diameter 4 times 13 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 14 turbine stages with 5 times the diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters double 15 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + 16-stage turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + 17 stages of 4 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters doubled 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 24 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal axis (16A) 25 stages of 4 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 27 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) of the opposed 12 blades 5 times the diameter of 38 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + Horizontal turbine shaft (16A) facing the turbine blade doubles the diameter of 1 to 12 turbines by 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating air + Reverse turbine blade horizontal shaft (16A), 40 stages for 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat to recover heated and compressed heat of geothermal heating air +42 stages of 1 to 12 turbines with 5 times the turbine diameter on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 48 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 49 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 50 stages of 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat recovery is performed + Opposite all blade turbine horizontal axis (16A) 52 times 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat from heated geothermal air + Two turbine diameters of 1 to 12 turbines in 3 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +4 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 4 to 1 turbine diameter 4 times 5 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times in 6 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heating air + Double turbine diameter of 1 to 12 turbines in 7 stages, etc. on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 13 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 14 stages of 1 to 12 turbines with 5 times the diameter of the turbine on the opposed horizontal blade turbine (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters are doubled to 15 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + 1 to 12 turbine diameters are increased by 28 stages on the opposed horizontal blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A), 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 1 to 12 turbine diameters are doubled by the counter-rotating blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) with 1 to 12 turbine diameters 3 times 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 43 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + 45 turbine stages with 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles the diameter of 1-12 turbines to 47 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbine diameters 4 times 53 stages, etc. on the opposed all-blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 5 times the diameter of the turbine blade (16A), 54 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Hardening the turbine diameter of 1 to 12 turbines by 55 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + 56-stages of 1-12 turbine diameters 3 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heat from compressed air by heating + Recovering heat from compressed heat + Opposing all rotor blades with horizontal axis (16A) 57 times 4 to 1 turbine diameter 4 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in 3 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 5 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades horizontal axis (16A) 6 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Double turbine diameters of 1 to 12 turbines are doubled by the opposed horizontal blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 9 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbine diameters 3 times in 12 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 17 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 1 to 12 turbine diameters 5 times 18 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Counter turbine blade horizontal axis (16A) with 1 to 12 turbine diameters doubled to 19 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Two turbine diameters of 1 to 12 turbines at 20 stages, etc. with opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and the heated geothermal air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 21 times by the counter horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Turbine diameter of 1 to 12 turbines is doubled by 22 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposed all blade turbine horizontal axis (16A) 35 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines with a horizontal axis (16A) of 5 to 38 stages, etc. Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines to 39 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat of compressed geothermal heat + Heat generated by compressing the heat from the geothermal air + Power generation from 1 to 12 turbine diameters to 40 stages, etc. with the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal air + Power generation from 4 to 12 turbine diameters to 41 stages etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + The geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat. + Power generation from the turbine blades of the opposed rotor blades horizontal axis (16A) to 5 times the turbine diameter of 1-12 units to 42 stages, etc. Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + Generating the turbine diameter of 1 to 12 turbines to 43 stages etc. with the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal air + Power generation from 1 to 12 turbine diameters to 44 stages, etc. with the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + The geothermal heating air is compressed and the geothermal heating air is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is increased to 45 stages, etc. by the horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal heat + Power generation from 1 to 12 turbines 5 times to 46 stages etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines to 47 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + (16A) opposed turbine blades 3 to 48 times the turbine diameter 3 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Improving the turbine diameter of 1 to 12 turbines by 49 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 50 times the diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) on the opposite side 51 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbines + 1 to 12 turbine diameters tripled by the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + 53 times the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Increase the turbine diameter of 1 to 12 turbines 5 times with the opposed all blade turbine horizontal axis (16A) 54 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbine + opposite turbine blade horizontal axis (16A) to double turbine diameter of 1 to 12 turbines 55 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 56 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed turbine blade horizontal axis (16A) to increase turbine diameter 4 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbines 5 times the diameter of the turbine blades (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Improving 59 times the diameter of 1 to 12 turbines with the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters tripled by opposed horizontal blade turbine horizontal axis (16A) 60 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 2 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heating air with geothermal heat and recover the heated and compressed heat from the geothermal heating air + 3 times the turbine diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Opposing all rotor blades with a horizontal axis (16A) 5 times 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbine + Counter turbine blade horizontal axis (16A) 6 to 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 8 times the turbine diameter of 1 to 12 turbines by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed geothermal air + Heat recovery from compressed air turbine + Horizontal turbine shaft (16A) of opposed 12 to 5 times the turbine diameter 5 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats up and compresses the heat of the geothermal heating air + 1 to 12 turbine diameters tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines to recover heat from heat and heat + Counter turbine blade horizontal axis (16A) 13 times 4 to 12 turbine diameters Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 14 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + recovers turbine diameter doubled from 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 15 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines 16 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase the turbine diameter of 1 to 12 turbines by 4 times 17 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the heated geothermal air + Combined bolts with the same diameter and approximately the same shape 5 times the diameter of the turbine to 18 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + Fit bolt assembly turbine diameter of the same diameter and shape of the same shape to 19 stages etc. Generator and heat Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combined bolts with the same diameter and shape of the same shape Bolt 3 times the turbine diameter to 20 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and heated heat from the geothermal heated air + Fit bolt assembly turbine diameter 4 times the same diameter and the same shape to 21 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Combine the bolts with the same diameter and the same shape with the fitting bolt assembly turbine diameter to 22 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 23 stages etc. with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 24 stages, etc., with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 25 stages for 1 to 12 turbine diameters 4 times on the opposed all blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 26 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 27 stages, etc., with 1 to 12 turbine diameters doubled on opposite horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Horizontal axis (16A) of opposed rotor blades 4 times the diameter of 1 to 12 turbines in 33 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + The turbine diameter of 1 to 12 turbines is increased by 34 times for the countershaft turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters doubled by the opposed horizontal blade turbine horizontal axis (16A) 35 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air by heat + Heat recovered from compressed air + 36 blades with 1 to 12 turbine diameters tripled by horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat to recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) of the opposed rotor blades 4 times the turbine diameter 4 times 37 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 43 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + 45 turbine stages with 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles the diameter of 1-12 turbines to 47 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 48 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 49 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 50 stages of 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat recovery is performed + Opposite all blade turbine horizontal axis (16A) 52 times 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Opposing all blade turbine horizontal shaft (16A) 5 times diameter of 1-12 turbines, 58 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 59 to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed air +60 turbines with 1 to 12 turbine diameters tripled by horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heated air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Two turbine diameters of 1 to 12 turbines in two stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 8 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 9 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is heated and compressed to recover heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbine diameters 3 times in 12 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 13 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 14 stages of 1 to 12 turbines with 5 times the diameter of the turbine on the opposed horizontal blade turbine (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters are doubled to 15 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 23 turbines with double diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat and compression of geothermal heating air + Vertical turbine blade horizontal shaft (16A) 1 to 12 turbine diameters 3 times 24 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated and compressed heat recovered + Heated compressed turbine turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 25 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating + Recovery of heat from heat of compressed air +26 turbines with 5 times the diameter of 1-12 turbines at the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) facing the turbine 12 times the turbine diameter doubled 27 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 1 to 12 turbines 5 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressing heat. + 1 to 12 turbine diameters are doubled by the horizontal shaft (16A) on the opposite side to 35 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 36 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 37 stages with 4 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters tripled by the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine blades on the opposed horizontal blade turbine (16A), 49 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Opposing all rotor blades with a horizontal axis (16A) 5 times the diameter of 1 to 12 turbines, 50 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 51 times with the opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal axis (16A) 1-12 turbine diameter tripled 52 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 58 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles 1 to 12 turbine diameters in 3 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 4 times 5 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades horizontal axis (16A) 6 stages of 1 to 12 turbine diameters 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Double turbine diameters of 1 to 12 turbines are doubled by the opposed horizontal blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) of the opposed rotor blades 4 times the turbine diameter 4 times 13 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 14 turbine stages with 5 times the diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters double 15 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + 16-stage turbine diameter of 1 to 12 turbines with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + 17 stages of 4 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters doubled 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering heated and compressed heat from the heated geothermal air + 24 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat is recovered + Opposite all blade turbine horizontal axis (16A) 25 stages of 4 to 4 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all blade turbine horizontal axis (16A) 26 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 27 stages of 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 28 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 29 stages of 4 turbine diameters of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat of the heated geothermal air + 30 stages of 5 turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Counter turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 31 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 32 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat from the heated geothermal air + Heat recovery from the compressed air turbine + Horizontal turbine shaft (16A) of the opposed 12 blades 5 times the diameter of 38 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + Horizontal turbine shaft (16A) facing the turbine blade doubles the diameter of 1 to 12 turbines by 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating air + Reverse turbine blade horizontal shaft (16A), 40 stages for 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat to recover heated and compressed heat of geothermal heating air +42 stages of 1 to 12 turbines with 5 times the turbine diameter on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 48 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 49 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 50 stages of 1 to 12 turbines 5 times the diameter of the turbine blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heating and compressed heat recovery is performed + Opposite all blade turbine horizontal axis (16A) 52 times 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat from heated geothermal air + Two turbine diameters of 1 to 12 turbines in 3 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air +4 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) 4 to 1 turbine diameter 4 times 5 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times in 6 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heating air + Double turbine diameter of 1 to 12 turbines in 7 stages, etc. on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 13 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + 14 stages of 1 to 12 turbines with 5 times the diameter of the turbine on the opposed horizontal blade turbine (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters are doubled to 15 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressing heat + 1 to 12 turbine diameters are increased by 28 stages on the opposed horizontal blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbines 4 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A), 29 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 30 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed air + 1 to 12 turbine diameters are doubled by the counter-rotating blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed heat from geothermal heating + Reverse turbine blade horizontal shaft (16A) with 1 to 12 turbine diameters 3 times 32 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times 38 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 43 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 44 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + 45 turbine stages with 4 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) doubles the diameter of 1-12 turbines to 47 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines tripled to 48 stages, etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 4 to 12 turbine diameters to 49 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + The geothermal heating air is compressed and the geothermal heating air is heated and compressed to recover the heat + Power generation from 1 to 12 turbines to 50 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat of compressed geothermal heat + Heat generated by compressing the heat from the geothermal air + Power generation from 1 to 12 turbines to 51 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + The geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered + The turbine diameter of 1 to 12 turbines is tripled to 52 stages, etc. with the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 4 to 12 turbine diameters to 53 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 5 to 5 turbine diameters of 54 turbines with 1 to 12 turbines on the horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the heat of compressed geothermal heat + Heat generated by compressing the heat of the geothermal air + Power generation from 1 to 12 turbines to 55 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal air + Power generation from 1 to 12 turbine diameters to 56 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated by compressing geothermal air + Power generation from 4 to 12 turbine diameters to 57 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbines 5 times the diameter of the turbine blades (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + Improving 59 times the diameter of 1 to 12 turbines with the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters tripled by opposed horizontal blade turbine horizontal axis (16A) 60 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 1 to 12 turbine diameters 4 times with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 2 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heating air with geothermal heat and recover the heated and compressed heat from the geothermal heating air + 3 times the turbine diameter of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 4 times the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Opposing all rotor blades with a horizontal axis (16A) 5 times 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbine + Counter turbine blade horizontal axis (16A) 6 to 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 7 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + 8 times the turbine diameter of 1 to 12 turbines by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed geothermal air + Heat recovery from compressed air turbine + Horizontal turbine shaft (16A) of opposed 12 to 5 times the turbine diameter 5 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + doubles the diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats up and compresses the heat of the geothermal heating air + 1 to 12 turbine diameters tripled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines to recover heat from heat and heat + Counter turbine blade horizontal axis (16A) 13 times 4 to 12 turbine diameters Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 14 times the turbine diameter of 1 to 12 turbines with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + recovers turbine diameter doubled from 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 15 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines 16 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase the turbine diameter of 1 to 12 turbines by 4 times 17 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 1 to 12 turbines 5 times the diameter of turbine blades (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 19 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 1 to 12 turbine diameters tripled by horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed air turbines + Counter turbine blade horizontal axis (16A) 21 to 4 times turbine diameter 4 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + heats up and compresses heat from compressed air turbine turbine shaft (16A) to increase turbine diameter of 1 to 12 turbines by 5 times 22 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air with geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 23 times with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 3 times by the opposed all blade turbine horizontal axis (16A) 24 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1-12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) 25 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat up the compressed air from the turbine blades (16A) on the opposed rotor blades to increase the turbine diameter 5 times by 26 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 27 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal heat + Heat-compressed heat recovered from geothermal heating + Assembly bolt assembly with the same diameter and the same shape 3 times the diameter of the turbine to 28 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly with the same diameter and the same shape 4 times the turbine diameter to 29 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Fit bolt assembly with the same diameter and shape of the same shape 5 times the turbine diameter to 30 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and heated heat from the geothermal heated air + Combine the bolts with the same diameter and the same shape with the fitting bolt assembly turbine diameter to 31 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from geothermal heated air + Fit bolt assembly with the same diameter and approximately the same shape 3 times the turbine diameter to 32 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 33 stages etc. with 4 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 34 stages etc. with 5 times the turbine diameter of 1-12 units on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 35 stages, etc. with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 36 stages with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 37 stages etc. with 4 times the diameter of 1-12 turbines on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heat + Heat compression heat recovery of the counter-rotating blade turbine horizontal shaft (16A), 43 stages of double diameter of 1-12 turbines, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal shaft (16A) opposed to 1 to 12 turbine diameters 3 times 44 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 45 stages for 4 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal air + Recovery of heat from compressed air + 46-stage turbine blades with a horizontal axis (16A) of 1 to 12 turbines 5 times larger Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat recovered from geothermal heat + Opposite all blade turbine horizontal shaft (16A) 47 times the diameter of 1-12 turbines doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) has 53 stages with 4 times the diameter of 1-12 turbines. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 5 to 5 turbine diameters, 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal shaft (16A) 55 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages with 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression heat + Opposite all blade turbine horizontal axis (16A) 58 stages of 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat, recover the heated air heat by compressing the heat of the geothermal heating + 8 stages of 3 times the turbine diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat, recover the heated air heat by compressing the heat of the geothermal heat + 9 stages of 4 times the diameter of the turbine of 1-12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 5 times 10 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposed all rotor blades horizontal axis (16A) 11 to 12 turbine diameters doubled Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal shaft (16A) 1-12 turbine diameter 3 times 12 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 17 stages, etc., with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression heat + Opposed all rotor blades Horizontal axis (16A) 18 stages with 5 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is doubled to 19 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermally heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters 5 times in 22 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades turbine horizontal axis (16A) 24 stages of 7 to 7 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 8 times 25 stages in opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 26 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heat turbines are used to recover the turbine diameter from 1 to 12 turbines in 27 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 28 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled with 29 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines in 30 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Counter turbine blade horizontal shaft (16A) 1-12 turbine diameter 6 times 33 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Horizontal turbine shaft (16A) on the opposing rotor blades 7 times the turbine diameter 7 times 34 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat, recover the heated air heat by compressing the heat of the geothermal heating + 35 stages of the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times 36 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) of the opposed rotor blades 10 times the turbine diameter 10 times 37 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 38 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 6 times 43 stages 43 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) 44 stages of 7 to 7 turbine diameters. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heating air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 45 stages of 1 to 12 turbine diameters 8 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 47 stages of 10 to 10 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposed all blade turbine horizontal axis (16A) 48 stages of 1 to 12 turbine diameters. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Turbine diameter of 1 to 12 turbines is doubled by 49 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 50 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 51 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + Turbine diameter of 1-12 turbines is increased by 52 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with a generator and heat pump in 53 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 10 times are provided with a generator and a heat pump in 57 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of heated geothermal air + Anti-all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters, 58 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 59 to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat of compressed geothermal heating + Recovery of heat from compressed air +60 turbines with 1 to 12 turbine diameters tripled by horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heated air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heated air + Two turbine diameters of 1 to 12 turbines in two stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in three stages with 6 to 6 turbine diameters in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 4 stages are provided with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 1 to 12 turbine diameters 8 times larger.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbine diameters are increased by 8 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 9 stages of 1 to 12 turbine diameters doubled by the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 10 to 3 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) makes 11 to 12 turbine diameters 4 times larger. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 12 to 5 times turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heating air and heat is recovered by heating and compression + Heat recovery from heat and heat + 13 turbine stages with 1 to 12 turbine diameters 6 times on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress the heated air and the heated geothermal air is heated and compressed to recover heat + 14 turbine stages 7 to 7 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 8 times 15 stages on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air, and the geothermal heated air is recovered by heating and compressing heat. + 16 stages of 1 to 12 turbines with 9 times the turbine diameter on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 17 stages with 1 to 12 turbine diameters 10 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 18 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal axis (16A) 1-12 turbine diameter 6 times 23 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbine diameters 7 times 24 stages with opposed all blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat from the heated geothermal air + Heat recovery from the heated air turbine + 16 horizontal turbine shafts (16A), 1 to 12 turbine diameters 9 times 26 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated and compressed heat from the heated geothermal air + 27 turbines with 10 times the diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 28 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled with 29 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines in 30 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 33 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat. + Opposite all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 7 times 34 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + Turbine diameter of 1 to 12 turbines is increased 35 times by the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 37 stages of 1 to 12 turbine diameters 10 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 38 stages 1 to 12 turbine diameters 1 time Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat from the heated geothermal air + 39 stages of double turbine diameters of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 40 stages of the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + 42 stages of turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 45 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with generators and heat pumps in 47 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines with a horizontal axis (16A) of 48 times a single turbine diameter, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Opposed all blade turbine horizontal shaft (16A) 49 turbines double the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat + 1 to 12 turbine diameters are tripled by the opposed horizontal blade turbine horizontal shaft (16A), etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 4 times 51 stages, etc. with opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + Opposite all blade turbine horizontal shaft (16A) is used to increase the turbine diameter from 1 to 12 to 52 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with a generator and heat pump in 53 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 10 times are provided with a generator and a heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compression + Heating compression heat recovery + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal shaft (16A) 58 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 59 stages to double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 60 stages of 3 to 1 turbine diameter 3 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air, and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A), 1 to 12 turbine diameters 5 times 2 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1-12 turbine diameter 6 times 3 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times 4 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + 1 to 12 turbines 8 times the diameter of the turbine on the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 6 stages of 1 to 12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from the heated geothermal air + 7 stages of 1 to 12 turbine diameters 10 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 8 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 9 stages or the like and a generator or heat pump is provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 10-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 12 stages or the like with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat and heat recovery of heat of compressed geothermal air +13 to 12 turbine diameters 6 times on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heating air by geothermal heat and recovery of heat and compression of the geothermal heating air +14 stages of turbine diameter 7 times 1 to 12 with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + 1 to 12 turbine diameters 8 times 15 stages on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 16-stage turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air by geothermal heat and recover the heated heat by compressing the heat of the geothermal heat + 17 stages of the turbine diameter of 1 to 12 turbines with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 18 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 23 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades turbine horizontal axis (16A) 24 stages of 7 to 7 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 8 times 25 stages in opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 26 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression + Heat turbines are used to recover the turbine diameter from 1 to 12 turbines in 27 stages with the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air by geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 28 stages of 1 to 12 turbine diameters with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored in an uplift + Compressed air is heated by geothermal heat, and the heated geothermal air is heated and compressed to recover heat + 29 turbine stages with double the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from geothermal heated air + 30 stages of 3 to 1 turbine diameter 3 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 1 to 12 turbine diameters 4 times 31 stages on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 32 stages of 5 to 1 turbine diameter 5 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages etc. with 1 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 10 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + Horizontal turbine shaft (16A) of the opposed rotor blades 1 to 12 turbine diameters, 38 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering heated heat by compressing heat + Heating and compressing heat from the geothermal heating air + Horizontal turbine shaft (16A) facing the turbine blade doubles the diameter of 1 to 12 turbines by 39 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heating air by geothermal heat and recovery of heat of compressed geothermal heating air + Reverse turbine blade horizontal shaft (16A), 40 stages for 1 to 12 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat to recover heated and compressed heat of geothermal heating air +42 stages of 1 to 12 turbines with 5 times the turbine diameter on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 45 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with generators and heat pumps in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposed all blade turbine horizontal axis (16A) 48 stages of 1 to 12 turbine diameters. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat and heat is recovered by heating and compressed heat. + Turbine diameter of 1 to 12 turbines is doubled by 49 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 50 stages of 3 to 1 turbine diameter 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 51 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + Turbine diameter of 1-12 turbines is increased by 52 stages on the opposed all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 53 stages 1 to 12 turbine diameters 6 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times 54 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal shaft (16A) 55 stages, 1 to 12 turbine diameters 8 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 57 stages with 10 to 10 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers heat from compressed geothermal heating air + Heat-driven turbine drive Drives mass-driven turbine with mercury and metal spheres + 1 to 12 turbines with a horizontal axis (16A) of 58 times a single turbine diameter 58 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers heat by compressing geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers heat by compressing geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + 1 to 12 turbine diameters on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, 60 stages, etc.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compresses and recovers heat by compressing geothermal heating air + Various energy storage cycles with generators and heat pumps in 1 stage for 4 times the turbine diameter of 1 to 12 turbines on the opposed horizontal blade turbine horizontal axis (16A) Combined organization.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) speeds up natural phenomenon with 1 to 26 times geothermal power generation + Increases and saves metal sphere and mercury with increasing sphere rising device (2F) + Air heated by geothermal heat Compressing and recovering geothermal heating air by heating and compressing heat + Calorie-driven turbine driving Mercury and metal spheres driving mass-driven turbine + Opposing all blade turbine horizontal axis (16A) 2 times turbine diameter 5 times 1 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the all driven blade turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined with various energy storage cycles equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 5 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed turbine blades with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the rising sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is heated and compressed and heat recovered + exhaust air is deep sea water, etc. Various energy storage cycle coalescing engines aiming for 1000 times power generation by providing 1 to 12 turbine diameters doubled in 69 stages on the opposed horizontal blade turbine horizontal axis (16A) dissolved in   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines driven by a spherically driven mass driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 13 stages or the like are provided with a generator or heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 14 stages, etc., with a turbine blade horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed turbine blade horizontal axis (16A) to reduce turbine diameter 9 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 17 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 18 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages, etc. with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 7 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc. with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc., with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages, etc., with 1 to 12 turbine diameters of 1 to 12 on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on a blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 30 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 32 stages, etc. with 5 times the diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed geothermal air + Heat turbines to recover heat from compressed air + Horizontal turbine shaft (16A) of opposed 12 blades 6 times diameter 33 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbine compressed horizontal turbine (16A) to increase turbine diameter 7 times 1 to 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat recovery from compressed air turbine Turbine horizontal axis (16A) 35 times 1 to 12 turbine diameters 8 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines by the opposed horizontal blade turbine horizontal axis (16A) 36 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 1 to 12 turbine diameters 10 times with the opposed horizontal blade turbine horizontal axis (16A) 37 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 38 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages, etc., with 6 to 6 turbine diameters in 43 units.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in various stages of opposed metal sphere mercury gravity geothermal turbines with 1 to 12 turbine diameters 8 times 105 in 105 stages on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters tripled to 50 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various all-energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 1 to 12 turbine diameters 7 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal axis (16A) 56 turbines with 9 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines with generators and heat pumps in 57 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages etc. with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages for 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages and so on, with turbine horizontal axis (16A) 1-12 turbine diameter 8 times 5 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 6 stages of 1 to 12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 7 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 8 stages with a generator and a heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 9 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 3 to 1 turbine diameter 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) makes 11 to 12 turbine diameters 4 times larger. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 12 stages are provided with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with 14-stage generator and heat pump organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycle with generator and heat pump in 15 stages with 1 to 12 turbine diameters 8 times on opposite rotor blade horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades with a sphere driving a mass driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters are combined with various energy storage cycle engines equipped with generators and heat pumps in 18 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 1 to 12 turbines 3 times the horizontal axis (16A) in 20 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and the heated geothermal air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 21 times by the counter horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter with 22 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 on the opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 25 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 27 stages, etc., having a turbine diameter of 1 to 12 turbines 10 times larger on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 28 times and a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 1 to 12 turbine diameters 4 times 31 stages on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages with 5 times the diameter of 1 to 12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 33 generators and heat pumps are provided in 33 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 39 stages etc. with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generator and heat pump with 1 to 12 turbine diameters tripled to 40 stages etc. on opposite horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times larger in diameter and 43 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 45 stages, etc. with a turbine shaft diameter of 8 times 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of geothermal heating air +46 stages of 1-12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines with generators and heat pumps in 47 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters tripled to 50 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various all-energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages, etc., with 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc. with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 58 times and a generator and heat pump in 58 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 59 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine horizontal axis (16A) of 3 to 1 turbine diameter 3 times 60 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 5 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the all driven blade turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined with various energy storage cycles equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 5 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal shaft (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters are combined with various energy storage cycle engines equipped with generators and heat pumps in 8 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 3 to 1 turbine diameter 3 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of air heated by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal shaft (16A) 11 to 12 turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with 14-stage generator and heat pump organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycle with generator and heat pump in 15 stages with 1 to 12 turbine diameters 8 times on opposite rotor blade horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades with a sphere driving a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 18 times and 18 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine horizontal axis (16A) of 2 to 1 turbine diameter doubled to 19 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 23 generators and heat pumps are provided in 23 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages of turbine diameter 8 times as many as 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 26 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 27 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed rotor blade turbines with a sphere driving a mass drive turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on the counter-rotating blade turbine horizontal axis (16A), 29 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 30 stages with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 6 times larger and 33 stages etc. provided with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc. with a turbine axis of 8 times the diameter of 1 to 12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times 36 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 37 stages, etc. with a turbine diameter of 1 to 12 turbines 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters doubled on opposite rotor blade horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generator and heat pump with 1 to 12 turbine diameters tripled to 40 stages etc. on opposite horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages, etc., with 6 to 6 turbine diameters in 43 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 45 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages etc. with 1 to 12 turbine diameters 1 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with 3 to 1 turbine diameter 3 times 50 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 51 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 54 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blades horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 55 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed all blade turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) 1 to 12 turbine diameters 1 times, and various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc., with 3 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing heat + Heating and compressing heat from the geothermal heated air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with two-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the all driven blade turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined with various energy storage cycles equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 5 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 8 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 9 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 3 to 1 turbine diameter 3 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) makes 11 to 12 turbine diameters 4 times larger. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 12 stages are provided with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 13 stages for 6 to 6 turbine diameters.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the air heated by geothermal heat and recovering the heat by compressing the geothermal heat + 1 to 1 of the opposed rotor blade horizontal axis (16A) that dissolves the exhaust air in deep ocean water Various energy storage cycle coalescing engines aiming at 1000 times power generation by installing 12 turbine diameters 7 times in 14 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air, and the geothermal heated air is recovered by heating and compressing heat. + 16 stages of 1 to 12 turbines with 9 times the turbine diameter on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters of 18 stages and so on.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages and so on with a generator and heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal air + Power generation from 4 to 12 turbine diameters to 21 stages, etc. with the opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 22 to 12 turbines 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 6 times and 23 generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 24 generators and heat pumps are provided in 24 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 25 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines 9 times in 26 stages etc. on the opposed horizontal blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 10 times, 27 stages etc. with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 28 stages with a generator and a heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on a blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 30 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascending and storing metal spheres and mercury + compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters 4 times 31 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages etc. with 1 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 35 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 10 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages etc. with 1 to 12 turbine diameters 1 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on a turbine blade horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 40 stages, etc., with a turbine blade horizontal axis (16A) of 3 to 1 turbine diameter 3 times 40 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 6 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with a turbine blade horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages etc. with a turbine blade horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages etc. with 10 times the turbine diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal heat + heat turbine compressed horizontal axis (16A) to 48 times 1 to 12 turbine diameters Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from geothermal heated air + Double turbine diameter of 1 to 12 turbines with opposed horizontal blade turbine horizontal axis (16A) 49 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air with geothermal heat and recovering heated and compressed heat from heated geothermal air + 50 times the diameter of 1 to 12 turbines with a horizontal axis (16A) facing each other Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing and heating geothermal heating air + 51 times the diameter of 1 to 12 turbines 4 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Turbine diameter of 1-12 turbines 5 times larger than 52 turbines on opposite horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with a generator and heat pump in 53 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 10 times are provided with a generator and a heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescence engines with generators and heat pumps in 58 stages etc. with a turbine diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 12 turbine diameters doubled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps with 6 turbine diameters of 60 units in 60 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 4 turbine diameters in 4 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages of 5 turbine diameters in 2 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the heating air with geothermal heat Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and metal spheres drive mass-driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times to 3 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + Mass-driven turbine-driven mercury, metal spheres, and exhaust air cool the heat-driven turbine exhaust + Opposite all blade turbine horizontal shaft (16A) 1-12 turbine diameter 7 times 4 stages Various energy storage cycle coalescence engine with generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the heating air with geothermal heat Heat-compressed heat recovery + Mass-driven turbine-driven mercury, metal spheres, and exhaust air cool the heat-driven turbine exhaust + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 8 times 5 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and using the geothermal heating air Heat-compressed heat recovery + various energy storage cycle coalescence engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 9 times on the opposed all-blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Raising the head as much as possible with the pumping device (1J) + Ascending and storing the metal sphere and mercury with the increasing ball rising device (2F) + Compressing the heating air with geothermal heat Heat-compressed heat recovery + Calorie-driven turbine drive Mercury and metal sphere drive mass-driven turbine + Opposed all blade turbine horizontal axis (16A) 10 to 10 turbine diameters to 7 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed turbine blades with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on opposite horizontal blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines driven by a spherically driven mass driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times larger in diameter and 13 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 14 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 16-stage turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages for 10 to 10 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled with a counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 19 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined with various energy conservation cycles with generators and heat pumps with 1 to 12 turbine diameters tripled to 20 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 23 generators and heat pumps are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages of turbine diameter 8 times as many as 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 26 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 27 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 28 times and a generator and heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 1 to 12 turbine diameters 4 times 31 stages on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages with 5 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + increase sphere lifting device (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Mass driven turbine driven by heat-driven turbine driven mercury and metal sphere + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 to 6 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + increase sphere lifting device (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal balls and exhaust air cools the heat driven turbine exhaust + Opposite all blade turbines horizontally Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 to 12 turbine diameters on the shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + increase sphere lifting device (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal balls and exhaust air cools the heat driven turbine exhaust + Opposite all blade turbines horizontally Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with a turbine diameter of 1 to 12 turbines 8 times the shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + increase sphere lifting device (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + 1 to 12 turbine diameters are increased to 36 stages, etc. on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescence engine with generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross-section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + increase sphere lifting device (2F) with metal sphere Mercury is stored and stored + Geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + Mass driven turbine driven by heat-driven turbine driven mercury and metal sphere + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 10 times, 37 stages, etc., equipped with a generator and heat pump.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters are combined with various energy storage cycle engines equipped with generators and heat pumps in 38 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 39 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps provided in 40 stages, etc., with 3 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 42 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on opposite horizontal blade turbine horizontal axis (16A) 44 stages etc. Various energy storage cycle coalescence with generator and heat pump organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine with a sphere + various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages etc. with 1 to 12 turbine diameters 1 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with 3 to 1 turbine diameter 3 times 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 51 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages, etc., with 1 to 12 turbine diameters 6 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc. with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages etc. with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times the diameter of the turbine and three generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 7 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 9 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and are equipped with generators and heat pumps in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed turbine blades with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on opposite horizontal blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines driven by a spherically driven mass driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 13 stages for 6 to 6 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air, and the geothermal heated air is recovered by heating and compressing heat. + 16 stages of 1 to 12 turbines with 9 times the turbine diameter on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 18 times and 18 generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine horizontal axis (16A) of 2 to 1 turbine diameter doubled to 19 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 on the opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 25 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 27 stages, etc., having a turbine diameter of 1 to 12 turbines 10 times larger on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 28 stages with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages etc. with 3 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 to 1 turbine diameter 4 times 31 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 32 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescence engine with a generator and heat pump in 33 stages, etc. with 6 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the turbine driven by a ball + mass driven turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing ball rising device (2F) + Compressing the air heated by geothermal heat and recovering the heated heat by compressing heat + Drives turbine diameter 2-12 times + inserts geothermal air heater (2z) into borehole drilling hole Opposing all blade turbine horizontal shaft (16A) 1-12 turbine diameter 7 times to 34 stages, etc. Various energy storage cycle coalescence engine with generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 35 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 38 multi-stages with 1 to 12 turbine diameters 1 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc., with 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 40 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages, etc., with 6 to 6 turbine diameters in 43 units.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 45 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters tripled to 50 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various all-energy storage cycle coalescing engines with generators and heat pumps installed in 52 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 1 to 12 turbine diameters 7 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat from compressed air + Heat compression heat recovery + Anti-all blade turbine horizontal axis (16A) 56 turbines with 9 times the diameter of 1-12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines with generators and heat pumps in 57 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages etc. with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages for 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages and so on, with turbine horizontal axis (16A) 1-12 turbine diameter 8 times 5 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 6 stages of 1 to 12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 7 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 8 stages with a generator and a heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 9 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 3 to 1 turbine diameter 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal shaft (16A) makes 11 to 12 turbine diameters 4 times larger. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 12 stages are provided with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with 14-stage generator and heat pump organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycle with generator and heat pump in 15 stages with 1 to 12 turbine diameters 8 times on opposite rotor blade horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades with a sphere driving a mass driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters are combined with various energy storage cycle engines equipped with generators and heat pumps in 18 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 1 to 12 turbines 3 times the horizontal axis (16A) in 20 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and the heated geothermal air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is doubled 21 times by the counter horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter with 22 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 on the opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 25 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 27 stages, etc., having a turbine diameter of 1 to 12 turbines 10 times larger on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 28 times and a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 1 to 12 turbine diameters 4 times 31 stages on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages with 5 times the diameter of 1 to 12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 33 generators and heat pumps are provided in 33 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the turbine diameter of 1 to 12 turbines on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses the heated air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 39 stages etc. with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generator and heat pump with 1 to 12 turbine diameters tripled to 40 stages etc. on opposite horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times larger in diameter and 43 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Compressing air heated by geothermal heat and recovering compressed heat from geothermal heated air + Mass-driven turbine driven mercury, metal spheres and exhaust air to cool heat-driven turbine exhaust + Opposed metal sphere mercury gravity Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of various geothermal turbines.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 45 stages, etc. with a turbine shaft diameter of 7 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 8 times in 46 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 47 stages and equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters 10 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with sphere and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 49 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters are doubled on the counter-rotating blade turbine horizontal axis (16A), 50 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) for driving the mass driven turbine with a sphere + counter-rotating blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc. with 6 to 6 turbine diameters on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc. with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages 1 to 12 turbine diameters 8 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 57 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 58 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc. with 1 to 12 turbine diameters with turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 60 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + One-stage turbine diameter is tripled by the opposed all blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbines 4 times in diameter.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 4 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 5 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with 6-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbines diameter 9 times on the horizontal axis (16A) of the all-wheel blade turbine driven by a sphere + sphere.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 10 times, 8 stages, etc. provided with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages of 1 to 12 turbines with a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated compressed heat recovered + 1 to 12 turbine diameters 3 times in 11 stages with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), And various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are four times larger and 12 generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed turbine blades driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 14 stages, etc. Combined with various energy storage cycle with generator and heat pump etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 15 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 18 stages of 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 20 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposite all blade turbine horizontal shaft (16A) 21 to 3 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 22 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters 6 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heating air and heat is recovered by heating and compression heat. + Opposite all blade turbine horizontal axis (16A) 26 stages of 1 to 12 turbine diameters 8 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in diameter and having 27 generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 10 times, 28 stages, etc. with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 29 stages, etc., with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages or the like and a generator or heat pump is provided.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing heat from geothermal air + Power generation from 1 to 12 turbines tripled to 31 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + metal ball and mercury in the increase sphere riser (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters 4 times 32 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbines 5 times larger in 33 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 35 generators and heat pumps are provided in 35 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines 8 times to 36 stages, etc. with opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 37 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 10 times are provided with a generator and a heat pump in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters of 1 to 12 on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress the heated air by geothermal heat and recover the heated and compressed heat from the geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) 41 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 42 stages or the like for 4 to 12 turbine diameters in 16A.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc. with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 45 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 1 to 12 turbine diameters 1 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages etc. with 3 times the turbine diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc., with a turbine blade horizontal axis (16A) of 4 to 12 turbine diameter 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1-12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy conservation cycle coalescing engines with generators and heat pumps in 54 stages etc. with 6 to 6 turbine diameters on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters 7 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 8 times the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with a turbine turbine diameter 9 times 1 to 12 on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air + Heat from compressed turbine blades + 1 to 12 turbine diameters 10 times 58 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 to 12 turbine diameters with horizontal axis (16A) opposed to 59 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Storing metal balls and mercury ascending + Compressing heated air by geothermal heat and recovering heated and compressed heat from heated geothermal air + 60 times the diameter of 1 to 12 turbines by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + 1 to 12 turbine diameters tripled by opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat by compressing geothermal heated air + Increase the turbine diameter of 1 to 12 turbines by 4 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in three stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages for 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times, and a generator and a heat pump are provided in five stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with 6-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines 9 times the diameter of the turbine are equipped with a generator and heat pump in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 turbine diameters 10 times 8 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages etc. with 12 turbine diameters 1 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 turbines with 12 turbine diameters doubled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps installed in 11 stages for 3 turbine diameters of 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages etc. with 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal spheres + 1 to 12 turbines 5 times the diameter of the opposed rotor blade horizontal shaft (16A), 13-stage generator and heat pump are provided Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposing all blade turbine horizontal axis (16A) 6 to 12 turbine diameters to 14 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposing all blade turbine horizontal axis (16A) 7 to 7 turbine diameters to 15 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 16 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of opposed all blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal spheres + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) 9 times larger in 17 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 19 stages, etc. 1 to 12 turbine diameters with the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 20 stages with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled, and a generator and heat pump are provided in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 23 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 24 stages, etc., with a turbine shaft diameter 6 times 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 25 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 26 turbine stages with 8 times the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 27 stages, etc. provided with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed mass moving turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling of heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 29 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters doubled to 30 stages, etc. on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 34 stages, etc., with 6 turbine diameters 6 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 7 to 7 turbine diameters on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times 36 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 37 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines 10 times the diameter of a turbine are provided in 38 stages or the like with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with double turbine diameter of 1-12 units in 40 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 41 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages of 4 to 12 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines equipped with generators and heat pumps in 43 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + 1 to 12 turbine diameters 6 times on the counter-rotating blade turbine horizontal axis (16A) Combined with various energy storage cycles with generators and heat pumps in 44 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various all-energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 9 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which generators and heat pumps are installed in 48 stages for 1 to 12 turbine diameters 10 times.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages of 1 to 12 turbines with a horizontal axis (16A) of 1x.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in the horizontal axis (16A) with 1 to 12 turbine diameters doubled to 50 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated compressed heat recovered + Turbine horizontal axis (16A) on the opposed rotor blade triples the diameter of 1 to 12 turbines to 51 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadruple and generators and heat pumps are provided in 52 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed turbine blades driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 54 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 55 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines equipped with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc. with 1 to 12 turbine diameters with turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 60 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + One-stage turbine diameter is tripled by the opposed all blade turbine horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbines 4 times in diameter.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 3 stages with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 6 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat compresses heating air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 6 stages in 1 to 12 turbine diameters 8 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generator and heat pump in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 stages of 4 to 12 turbine diameters driven by a spherically driven mass-driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 13 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 14 stages of 6 to 12 turbine diameters on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages etc. with a turbine shaft diameter of 7 times 1-12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compression of heated air by geothermal heat to recover heat of compressed air by heating + Recovery of heat from compressed air + 16-stage turbine diameter of 1 to 12 turbines in 16 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 9 times larger and 17 stages etc. provided with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 19 stages, etc. 1 to 12 turbine diameters with the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 20 stages with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled, and a generator and heat pump are provided in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heating air and heat is recovered by heating and compression heat. + Opposite all blade turbine horizontal axis (16A) 26 stages of 1 to 12 turbine diameters 8 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in diameter and having 27 generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 28 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 29 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 30 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 30 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 3 times in 31 stages with opposed horizontal blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 33 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed by heating and compression heat recovery of the geothermal heating air + mass driven turbine 6 driving water; Exhaust heat driven turbine exhaust cooling + opposed metal sphere mercury gravity geothermal turbines, etc. Various energy storage cycle coalescing engines with generators and heat pumps installed in 34 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 35 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc. with 9 to 12 turbine diameters on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere with a spherically driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 1 to 12 turbine diameters 10 times 38 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc., with 1 to 12 turbine diameters on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in the horizontal axis (16A) with 1 to 12 turbine diameters doubled to 40 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heated compressed heat recovered + 1 to 12 turbine diameters 3 times 41 stages with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and are equipped with generators and heat pumps in 42 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines equipped with generators and heat pumps in 43 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + 1 to 12 turbine diameters 6 times on the counter-rotating blade turbine horizontal axis (16A) Combined with various energy storage cycles with generators and heat pumps in 44 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various all-energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 9 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbines with a diameter of 49 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with double turbine diameter of 1-12 units in 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Turbine diameter of 1-12 turbines is increased by 51 stages on the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 52 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc. with 6 to 6 turbine diameters on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc. with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposed all rotor blades horizontal axis (16A) 56 stages 1 to 12 turbine diameters 8 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine with a sphere driving + various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blades, and various energy storage cycles combined with a generator and heat pump in 59 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages, etc. with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and a generator or heat pump is provided in one stage or the like.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 3 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 4 stages, etc., with a turbine shaft diameter 6 times 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with 1 to 12 turbine diameters 7 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress + heated air by geothermal heat and recover the heated and compressed heat from the heated geothermal air + 6 stages of 1 to 12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 7 stages, etc., equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generator and heat pump in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 stages of 4 to 12 turbine diameters driven by a spherically driven mass-driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 13 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of turbine diameter 6 times as many as 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages of turbine diameter 8 times 1 to 12 Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 17 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 18 stages of 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 20 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed and heat is recovered + Opposite all blade turbine horizontal shaft (16A) 21 to 3 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 22 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 6 times on opposite all-blade turbine horizontal axis (16A) Combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters 7 times on the opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 25 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages for 1 to 12 turbine diameters 10 times.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters of 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) in 30 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression heat + The turbine diameter of 1 to 12 turbines is tripled by 31 stages, etc. with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with generators and heat pumps in 32 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 33 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 34 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 35 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc. with 9 to 12 turbine diameters on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines 10 times the diameter of a turbine are provided in 38 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with double turbine diameter of 1-12 units in 40 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 41 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages of 4 to 12 turbine diameters.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 43 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages of turbine diameter 6 times as many as 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 46 stages of 1-12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 9 times larger than 47 stages and equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters 10 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with sphere and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 49 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters are doubled on the counter-rotating blade turbine horizontal axis (16A), 50 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) for driving the mass driven turbine with a sphere + counter-rotating blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescence engines with generators and heat pumps in 53 stages etc. with 5 to 5 turbine diameters.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc. with 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + Turbine horizontal shaft (16A) opposed to turbine blades 8 times the turbine diameter 8 times 56 stages etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescence engines with 1 to 12 turbines 9 times larger and 57 generators and heat pumps in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine with a sphere driving + various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines with a horizontal axis (16A) on the opposed rotor blades, and various energy storage cycles combined with a generator and heat pump in 59 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages, etc. with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and a generator or heat pump is provided in one stage or the like.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 3 stages with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 6 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat compresses heating air and heat is recovered by heating and compression. + Opposite all blade turbine horizontal axis (16A) 6 stages in 1 to 12 turbine diameters 8 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 7 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 8 to 12 turbine diameters of 10 to 12 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal axis (16A) and 1 to 12 turbines with a diameter of 1 turbine and a 9-stage generator and heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed turbine blades driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 14 stages, etc. Combined with various energy storage cycle with generator and heat pump etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 15 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which generators and heat pumps are installed in 1 to 12 turbine diameters 10 times 18 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages of 1 to 12 turbine diameters with horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 2 turbine diameters of 2 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury are stored + Compressed air is heated by geothermal heat and heat is recovered by heating and compression + Heat turbines are recovered by heat and compressed heat + Opposed all blade turbine horizontal shaft (16A) 21 to 3 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), And various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 22 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 6 times on opposite all-blade turbine horizontal axis (16A) Combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere raising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine 7 driving water; Exhaust heat driven turbine exhaust cooling + opposed metal sphere mercury gravity geothermal various turbines with 25 stages, etc. Various energy storage cycle coalescing engines with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 28 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 29 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 30 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 30 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is recovered by heating and compression heat + 1 to 12 turbine diameters 3 times in 31 stages with opposed horizontal blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 32 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 34 stages, etc., with 6 turbine diameters 6 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 7 to 7 turbine diameters on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times 36 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 37 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters 10 times 38 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 39 stages with a generator and a heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 40 generators and heat pumps are provided in 40 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbine diameters to 41 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters 4 times 42 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 5 times the turbine diameter of 1-12 units.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 45 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + The geothermal heating air is compressed and the geothermal heating air is heated and compressed and heat is recovered. + The counter-rotating blade turbine horizontal shaft (16A) generates 1 to 12 turbine diameters 8 times to 46 stages, etc. Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 47 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 10 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 48 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages etc. with 1 to 12 turbine diameters 1 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed turbine blade horizontal axis (16A) to increase the turbine diameter of 1 to 12 turbines by 51 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 54 generators and heat pumps are provided in 54 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with a turbine turbine horizontal axis (16A) of 10 to 12 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages etc. with 1 to 12 turbine diameters of 1 to 12 turbine blades on the horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc. with 1 to 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy conservation cycle coalescing engines with generators and heat pumps in the turbine turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled in one stage.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 4 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbines 5 times the diameter of the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages and so on with 1 to 12 turbine diameters 7 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 8 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages etc. with 9 to 9 turbine diameters on blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heated and compressed heat from geothermal heated air + 8 to 10 times the diameter of 1 to 12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by compressing geothermal heating air + recovers turbine diameter 1 times from 1 to 12 on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Recover the turbine diameter of 1 to 12 turbines by 10 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heated air by geothermal heat and recovers heated air by heating and compression + recovers the turbine diameter of 1 to 12 turbines by 3 times with the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbine compressed horizontal heat turbine (16A) to 12 times the turbine diameter 4 times 12 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 14 generators and heat pumps are provided in 14 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 7 times larger in diameter and provided with a generator and heat pump in 15 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 17 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps for 12 turbines with 10 times the diameter of 18 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps for 19 turbines with 12 turbine diameters 1 time.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps of 20 turbines, etc., with 12 turbine diameters doubled.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages etc. with 3 turbine diameters of 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps of 12 turbines 4 times the diameter of 12 turbines in 22 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal spheres + Generators and heat pumps are installed in 23 stages etc. with 5 times the diameter of 1-12 turbines on the opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) 6 to 12 turbine diameters to 24 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposing all blade turbine horizontal axis (16A) 7 to 7 turbine diameters in 25 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump installed in 26 stages, etc. with 1 to 12 turbine diameters 8 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal spheres + 1 to 12 turbines with 9 axis diameter on the opposed all blade turbine horizontal axis (16A) equipped with a generator and heat pump in 27 stages, etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed mass moving turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling of heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 29 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters doubled to 30 stages, etc. on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter with 33 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 35 stages etc. with 7 to 7 turbine diameters on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 8 times 36 stages with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 37 stages and equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the all-rotor blade turbine driven by a sphere driving a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with sphere and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A) 39 stages etc organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters doubled to 40 stages, etc. on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 41 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 43 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages of turbine diameter 6 times as many as 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 46 stages of 1-12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 9 times larger than 47 stages and equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbines with a diameter of 49 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with double turbine diameter of 1-12 units in 50 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compression. + Turbine diameter of 1-12 turbines is increased by 51 stages on the opposed horizontal blade turbine horizontal axis (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 52 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed turbine blades driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 54 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 55 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines equipped with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which generators and heat pumps are installed in 58 stages with 10 to 10 turbine diameters.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages etc. with 1 to 12 turbine diameters of 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydrogen and mercury + Compression of heated air by geothermal heat and recovery of heated and compressed heat of heated geothermal air + An all-blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters tripled in one stage, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), Various energy storage cycle coalescing engines with 1 to 12 turbines 4 times larger in diameter and equipped with generators and heat pumps in two stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 6 times on the opposed full blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 4 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the opposed all blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 5 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with 6-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbines diameter 9 times on the horizontal axis (16A) of the all-wheel blade turbine driven by a sphere + sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 8 to 12 turbine diameters of 10 to 12 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy conservation cycle coalescing engines with generators and heat pumps installed in 9 stages, etc., with 1 to 12 turbine diameters at turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal axis (16A) and a generator and a heat pump with 10 to 12 turbine diameters doubled in 10 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 11 to 3 turbine diameters 3 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 13 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of turbine diameter 6 times as many as 1-12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 16 stages of turbine diameter 8 times 1 to 12 Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 17 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 19 stages, etc. 1 to 12 turbine diameters with the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 20 stages with 1 to 12 turbine diameters doubled on opposite all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled, and a generator and heat pump are provided in 21 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 23 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 24 stages, etc., with a turbine shaft diameter 6 times 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 25 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 26 turbine stages with 8 times the turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 27 stages, etc. provided with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of opposed mass moving turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling of heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all blade turbine horizontal axis (16A), 29 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters doubled to 30 stages, etc. on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere + a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 34 stages, etc., with 6 turbine diameters 6 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 7 to 7 turbine diameters on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times 36 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 37 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines 10 times the diameter of a turbine are provided in 38 stages or the like with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with double turbine diameter of 1-12 units in 40 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 3 times 41 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages of 4 to 12 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines equipped with generators and heat pumps in 43 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + 1 to 12 turbine diameters 6 times on the counter-rotating blade turbine horizontal axis (16A) Combined with various energy storage cycles with generators and heat pumps in 44 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 7 times on the opposed horizontal blade turbine horizontal axis (16A) organ.   Structure and method for accelerating high-temperature water vertically downward by providing 46 stages of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Drive and use cold energy + Collect geothermal heat with a geothermal air heater (2z) + Increase and store metal spheres and mercury with an increasing ball rising device (2F) + Compress geothermal heating air by compressing heating air with geothermal heat Heat recovery energy recovery + Drives the turbine diameter 9 times of the opposed all blade impeller turbine + Geothermal air heater (2z) is inserted into the drilling hole drilling machine, various energy storage cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine with a sphere + various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) 1 to 12 turbine diameters 1 times 48 stages, etc., various energy storage cycle coalescing engines provided with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with double turbine diameter of 1-12 units on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in the horizontal axis (16A) with 3 to 1 turbine diameter tripled to 50 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 1 to 12 turbine diameters 4 times 51 stages, etc. with opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 52 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters with opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 54 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blades horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 55 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed all blade turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 58 times and a generator and heat pump in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbine diameters doubled to 59 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with a turbine horizontal axis (16A) of 3 to 1 turbine diameter 3 times 60 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 1 to 12 turbine diameters 4 times 1 stage Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 5 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages for 1 to 12 turbine diameters 6 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages and so on, with turbine horizontal axis (16A) 1-12 turbine diameter 8 times 5 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 6 stages of 1 to 12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed turbine blades with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on opposite horizontal blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines driven by a spherically driven mass driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times larger in diameter and 13 generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 14 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat and recovered heat from compressed air + Heated and compressed heat recovered + 16-stage turbine diameter of 1 to 12 turbines on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages for 10 to 10 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled with a counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 19 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined with various energy conservation cycles with generators and heat pumps with 1 to 12 turbine diameters tripled to 20 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 23 generators and heat pumps are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages of turbine diameter 7 to 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages of turbine diameter 8 times as many as 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 26 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 27 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 28 times and a generator and heat pump.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with a turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Storing the sphere and mercury ascending + Compressing the heated air with geothermal heat and recovering the heated and compressed heat from the heated geothermal air + 1 to 12 turbine diameters 4 times 31 stages on the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages with 5 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescence engine with a generator and heat pump in 33 stages, etc. with 6 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the turbine driven by a ball + mass driven turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 34 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 35 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters are combined with various energy storage cycle engines equipped with generators and heat pumps in 38 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps installed in 39 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps provided in 40 stages, etc., with 3 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the heated air with geothermal heat and recover the heated air heat by compressing the heat + Heating and compressing the heat of the heated geothermal air Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 42 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on opposite horizontal blade turbine horizontal axis (16A) 44 stages etc. Various energy storage cycle coalescence with generator and heat pump organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine with a sphere + various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the opposed rotor blades.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages etc. with 1 to 12 turbine diameters 1 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with 3 to 1 turbine diameter 3 times 50 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 51 stages with 4 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages, etc., with 1 to 12 turbine diameters 6 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc. with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress the heated air, and the geothermal heated air is recovered by heating and compressed heat. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters 1 × on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 60 stages etc. with 1 to 12 turbine diameters tripled on the opposed horizontal blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine with a sphere to drive a mass driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 6 times the diameter of the turbine and three generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 7 times on horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 1 to 12 turbines 9 times the diameter of the turbine on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and are equipped with generators and heat pumps in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. 1 to 12 turbine diameters are driven on the horizontal axis (16A) of the opposed turbine blades with a spherically driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on opposite horizontal blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 9 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines driven by a spherically driven mass driven turbine + opposed full blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 13 stages for 6 to 6 turbine diameters.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 1 to 12 turbine diameters 7 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air, and the geothermal heated air is recovered by heating and compressing heat. + 16 stages of 1 to 12 turbines with 9 times the turbine diameter on the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 18 times and 18 generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine horizontal axis (16A) of 2 to 1 turbine diameter doubled to 19 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters 3 times on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and heat is recovered by heating and compression heat + Turbine horizontal axis (16A) on the opposed rotor blades 4 times the turbine diameter 4 times 21 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + 1 to 12 turbine diameters 7 on the opposed all-blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 24 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 8 times the diameter of opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 25 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal A mass-driven turbine is driven by a sphere + various energy storage cycle coalescence engines provided with generators and heat pumps in 27 stages, etc., having a turbine diameter of 1 to 12 turbines 10 times larger on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 28 stages with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters twice on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages etc. with 3 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Opposite all blade turbine horizontal shaft (16A) 4 to 1 turbine diameter 4 times 31 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and 32 generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescence engine with a generator and heat pump in 33 stages, etc. with 6 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the turbine driven by a ball + mass driven turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 34 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbines 8 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 35 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 38 times and generators and heat pumps in 38 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc., with 1 to 12 turbine diameters doubled on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 40 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades horizontal axis (16A) 41 to 4 turbine diameters 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages, etc., with 6 to 6 turbine diameters in 43 units.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 45 stages, etc., with a turbine horizontal axis (16A) of 8 to 12 turbine diameters 8 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 46 stages of 9 to 9 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbine diameters, 48 stages, etc.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescence engines in which 1 to 12 turbine diameters 12 times are provided with a generator and a heat pump in 49 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat to recover heat from compressed air + Heat generated by compressing geothermal heated air + Power generation from 1 to 12 turbines tripled to 51 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbine diameters 4 times 52 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in 53 stages and so on.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 54 generators and heat pumps are provided in 54 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing the air heated by geothermal heat and recovering the compressed heat from the heated geothermal air + Cooling the heat driven turbine exhaust by the mass driven turbine driven mercury, metal sphere and exhaust air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressed air heated by geothermal heat and recovered heat from compressed air + Heat generated from compressed air + Power generation from 1 to 12 turbines 8 times to 56 stages, etc. with opposed all blade turbine horizontal shaft (16A) Various energy conservation cycle coalescing engines equipped with machines and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + metal ball and mercury with increasing sphere raising device (2F) + Compressing air heated by geothermal heat and recovering heat by compressing geothermal heating air + Heat-driven turbine driving Mass-driven turbine driven by mercury and metal balls + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in 57 stages and so on with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 10 times larger and 58 generators and heat pumps are provided in 58 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps installed in 59 stages etc. with 1 to 12 turbine diameters of 1 to 12 turbine blades on the horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages etc. with 12 times the turbine diameter 12 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat to recover heat from compressed geothermal air + 1 to 12 turbine diameters doubled by opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 3 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages, etc., with 4 to 1 turbine diameter 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages for 5 times the diameter of 1 to 12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 6 times are provided with a generator and a heat pump in five stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages for 1 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with generators and heat pumps in 7 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 9 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages etc. with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters with a blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages of 1 to 12 turbine diameters 12 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc., with 12 turbine diameters doubled on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various vessel prime + with the increase ball lift device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages etc. with 3 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 4 to 12 turbine diameters on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages, etc., with 5 times the diameter of 1 to 12 turbines on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 6 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and heats and compresses geothermal heating air + cools heat-driven turbine exhaust by mass-driven turbine driven mercury, metal balls and exhaust air + opposed full motion Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 7 times on the blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed geothermal air + heat turbines with opposed all-blade turbine horizontal axis (16A) to increase turbine diameter 8 times 18 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal balls and mercury ascending + compresses heating air by geothermal heat and recovers heat by heating and compressing heat + heats up and compresses heat from geothermal heating air Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat recovery from compressed air turbine Turbine horizontal shaft (16A) 20 times the diameter of 1 to 12 turbines 10 times Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed geothermal air + Heat turbines with opposed all blade turbine horizontal shaft (16A) to reduce turbine diameter 1 to 12 times 21 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + compress air heated by geothermal heat and recover heat from compressed air + heat from compressed air turbines + 1 to 12 turbine diameters 12 times with opposed horizontal blade turbine horizontal axis (16A) 22 Various energy storage cycle coalescing engines with generators and heat pumps in stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Ascend and store metal spheres and mercury + Compress air heated by geothermal heat and recover heat from compressed air heat + Heat-driven turbine drive Mercury and metal sphere drive mass driven turbine + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 turbine diameters 7 times 28 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines with generators and heat pumps with 12 turbine diameters 8 times 29 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 turbine diameters 9 times 30 stages and so on.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescence engines with generators and heat pumps with 12 turbines 10 times the diameter of 31 turbines in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ships primed + Intensifying sphere ascending device (2F) Saves metal spheres and mercury ascending + compresses heated air by geothermal heat and recovers heated and compressed heat from geothermal heated air + 1 on opposed horizontal blade turbine horizontal axis (16A) that dissolves exhaust air in deep ocean water Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages etc. with 12 turbine diameters 1 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal sphere + 1 to 12 turbines with 12-axis turbine horizontal axis (16A) with a generator and heat pump in 33 stages etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposed all blade turbine horizontal axis (16A) doubles turbine diameter from 1 to 12 to 34 stages, etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass driven turbine driven mercury, metal spheres and exhaust air to cool the heat driven turbine exhaust + Opposite all blade turbine horizontal axis (16A) 3 to 3 turbine diameters to 35 stages etc. Various energy storage cycle coalescence engine with a pump.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Energy conservation cycle coalescence engine with generator and heat pump in 36 stages with 1 to 12 turbine diameters 4 times on the opposed horizontal blade turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating + Collecting by the vessel (2z) + Increase the head by the pumping device (1J) + Save the metal sphere and mercury by the rising ball rising device (2F) + Compress the heated air by geothermal heat and recover the compressed heat by heating the geothermal heated air + Mass-driven turbine driven by heat-driven turbine driven mercury and metal spheres + 1 to 12 turbines with a horizontal axis (16A) on the horizontal axis (16A) with 5 times the turbine diameter in 37 stages, etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages etc. with 6 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbine diameters 7 times on the counter-rotating blade turbine horizontal axis (16A), 39 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters 8 times on the counter-rotating blade turbine horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 40 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 41 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), 1 to 12 turbine diameters, 43 energy generators and heat pumps in 43 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages, etc., with 12 to 12 turbine diameters on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) And mercury is stored and stored + Compressed air is heated by geothermal heat, and heated air is recovered by heating and compressed heat + 46 turbine stages with 1 to 12 turbine diameters tripled by horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc. with a turbine diameter 4 times 1 to 12 units.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 49 stages etc. with 6 to 6 turbine diameters of 1 to 12 turbines on the horizontal shaft (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters 7 times 50 stages on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 51 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each driven turbine driven by a sphere + sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages, etc., with 1 to 12 turbine diameters 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy conservation cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 1 to 12 turbine diameters at turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 12 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposed all rotor blades Horizontal axis (16A) 56 stages 1 to 12 turbine diameters double Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 57 stages with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters 4 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 5 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages etc. with 6 times the diameter of 1-12 turbines on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Compressed air is heated by geothermal heat, and heat is recovered by heating and compressing heat. + 1 to 12 turbine diameters 7 times in one stage with opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of each driven turbine driven by a sphere + spheres.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 10 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters in 5 stages etc. on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters 12 times are provided with 6-stage generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the opposed rotor blades with a sphere driving a mass driven turbine.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ), Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters tripled to 8 stages.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 9 stages, etc. with a turbine shaft 4 times as large as 1 to 12 on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages, etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat and recover the heat of the geothermal heated air + Heat recovery from the compressed air + 1 to 12 turbine diameters 6 times in 11 stages with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 12 stages etc. are provided with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling the heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 9 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 10 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 16 stages and a generator and a heat pump are provided in 16 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of the turbine driven by a sphere + mass driven turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 18 stages, etc., and generators and heat pumps are provided.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with a turbine horizontal axis (16A) of 3 to 1 turbine diameter 3 times 19 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 20 stages, etc. with a turbine horizontal axis (16A) of 4 to 12 turbine diameters 4 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses heated air and heat is recovered by heating and compressed heat + Opposite all blade turbine horizontal axis (16A) 21 stages with 5 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters in 22 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 7 times larger in diameter and provided with generators and heat pumps in 23 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 24 stages of turbine diameter 8 times 1 to 12 on the turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with a turbine horizontal axis (16A) and a generator and heat pump with 1 to 12 turbine diameters 9 times larger than 25 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 26 stages with 10 to 10 turbine diameters Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 27 times and a generator and heat pump in 27 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of the all driven blade turbines driven by a sphere with a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters are doubled on the counter-rotating blade turbine horizontal axis (16A), 29 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 30 stages with 1 to 12 turbine diameters tripled by opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of each driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 6 times larger and 33 stages etc. provided with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy conservation cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the diameter of 1-12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 35 stages, etc. with a turbine axis of 8 times the diameter of 1 to 12 turbines on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover heat from compressed air + Heat recovery from heated air + Opposite all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times 36 stages, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 37 stages, etc. with a turbine diameter of 1 to 12 turbines 10 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal shaft (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbine diameters with opposed horizontal blade turbine horizontal axis (16A), 12 stages of turbine diameter, 39 stages etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps with 1 to 12 turbine diameters doubled to 40 stages, etc. on the opposed full blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 41 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each mass driven turbine driven by a sphere + horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 43 stages etc. with 5 times the diameter of 1-12 turbines.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages of turbine diameter 6 times as many as 1 to 12 on the turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages, etc., with a turbine horizontal axis (16A) of 7 to 12 turbine diameters 7 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered from the heated geothermal air + 46 stages of 1-12 turbine diameters 8 times on the opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters 9 times larger than 47 stages and equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages, etc. with 1 to 12 turbine diameters 10 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with a turbine horizontal axis (16A) of 1 to 12 turbines with a diameter of 49 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various automobiles + metal with increasing sphere raising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat-driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in the turbine horizontal axis (16A), with 12 to 12 turbine diameters 12 times 50 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heat is used to compress heated air and geothermal heated air is heated and compressed to recover heat + Opposite all blade turbine horizontal axis (16A) 51 stages with double turbine diameter of 1-12 units Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 52 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of each driven turbine driven by a sphere and a horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with a sphere and exhaust air + 1 to 12 turbines 5 times in diameter with opposed horizontal blade turbine horizontal axis (16A) 54 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Heat-driven turbine exhaust is cooled with spheres and exhaust air + 1 to 12 turbines 6 times the diameter of the opposed turbine blade horizontal axis (16A), combined with various energy storage cycles with generators and heat pumps in 55 stages, etc. organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 57 stages etc. with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the opposed rotor blades turbine driven by a sphere.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) Various energy storage cycle coalescence engines with 1 to 12 turbines 9 times larger and 58 stages etc. equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with a turbine shaft 10 times the diameter of 1-12 units on a horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Hydraulic heat + Compressed air heated by geothermal heat to recover compressed heat from geothermal heated air + Mass driven turbine driven mercury, metal balls and exhaust air cooled heat driven turbine exhaust + Opposite all rotor blade turbine Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A).   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Save the mercury and compress the air heated by geothermal heat to recover the heat of the geothermal heating air + Heat recovery from the compressed air + One stage of 12 to 12 turbine diameters with the opposed all blade turbine horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere Mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + factory electrification prime + metal ball with increasing sphere rising device (2F) + Saves the mercury and compresses the air heated by geothermal heat, recovers the heat from the heated geothermal air + Heat-driven turbine drive Drives the mass-driven turbine with mercury and metal balls + Opposite all blade turbine horizontal axis (16A ) And various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to provide a generator and heat pump in two stages.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the opposed rotor blade turbines with a sphere driving a mass driven turbine.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with a sphere and exhaust air + Combined various energy storage cycles with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 4 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing ball rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + mass driven turbine driven mercury and metal Cooling heat-driven turbine exhaust with spheres and exhaust air + Combined various energy storage cycles with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 5 times on the opposed all blade turbine horizontal axis (16A) organ.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and cold use prime + geothermal air heating Collected by the vessel (2z) + metal balls and mercury are raised and stored by the increasing sphere rising device (2F) + geothermal heating air is compressed and geothermal heating air is recovered by heating and compression heat + opposed all blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters 6 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine + storage battery drive, electric drive and chilled heat utilization + geothermal air heating Collecting by the vessel (2z) + Increase and store the metal sphere and mercury by the increasing sphere rising device (2F) + Compressing the air heated by geothermal heat and recovering the heat by heating and compressing heat + Heat-driven turbine driven mercury and metal Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the opposed rotor blade turbine driven by a sphere.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 8 times.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages of 1 to 12 turbine diameters 9 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines provided with generators and heat pumps in 10 stages of 1 to 12 turbine diameters 10 times on turbine horizontal axis (16A).   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation Sphere and mercury are stored and stored + Geothermal heat compresses the heated air and heat is recovered by heating and compressing heat + The turbine diameter of 1 to 12 turbines is increased 11 times by the opposed horizontal blade turbine horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Opposite metal sphere mercury gravity geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in multiple stages + full electrified house prime + metal with increasing sphere rising device (2F) Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 12 stages of 1 to 12 turbine diameters 12 times.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 13-stage generators and heat pumps are provided.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc., with a turbine horizontal axis (16A) of 3 to 1 turbine diameter 3 times 14 stages.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Spheres and mercury are stored and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed to recover heat + Mass driven turbine driven mercury, metal spheres and exhaust air cool heat driven turbine exhaust + Opposite all blades Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 4 to 12 turbine diameters on turbine horizontal axis (16A).   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury are stored and stored. + Geothermal heat is used to compress heated air and heat is recovered by heating and compression. + Opposed all-blade turbine horizontal axis (16A) has 16 stages of 5 to 1 turbine diameter 5 times. Various energy storage cycle coalescing engines equipped with generators and heat pumps.   Multi-stage structure of opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine Sphere and mercury ascending and storing + Compressing air heated by geothermal heat and heating and compressing geothermal heating air + Heat-driven turbine driving Mercury and metal sphere driving mass driven turbine + Opposite all blade turbine horizontal axis ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 17 stages are provided with a generator and a heat pump.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 1 to 26 times and mixing exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engine that doubles the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) and mixes the exhaust gas such as turbine-driven CO2 with deep ocean water to speed up natural phenomena.   Various energy storage cycle coalescing engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) three times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) four times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) five times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 6 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) seven times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 8 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 9 times and mixing exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescing engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 10 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 11 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescing engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 12 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescing engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 13 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 14 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engine that speeds up natural phenomenon by mixing opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 15 times and mixing exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 16 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engine that speeds up natural phenomenon by mixing opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 17 times, mixing turbine driven CO2 exhaust with deep ocean water etc.   Various energy conservation cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 18 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescing engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 19 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engine that speeds up natural phenomenon by mixing opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 20 times and mixing exhaust gas such as turbine drive CO2 into deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 21 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescence engine that speeds up natural phenomenon by mixing opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 22 times and mixing turbine driven CO2 exhaust with deep ocean water etc.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 23 times and mixing the exhaust gas such as turbine-driven CO2 into deep ocean water.   Various energy storage cycle coalescing engine that speeds up natural phenomenon by mixing opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 24 times and mixing turbine driven CO2 exhaust with deep ocean water.   Various energy storage cycle coalescence engines that speed up the natural phenomenon by mixing the opposed metal sphere mercury gravity geothermal turbine blade cross section (4X) 25 times and mixing the exhaust of turbine driven CO2 etc. with deep sea water.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 103 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat pumps driven by 104 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up the natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 105 stages of turbines to suck and compress geothermal CO2 together with the atmosphere and speed up the natural phenomenon mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal Various 106 turbine stages drive heat pump to suck and compress geothermally heated CO2 with the atmosphere and speed up the natural phenomenon mixed with deep sea water etc. after using geothermal heated air with heat heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 107 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 108 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up the natural phenomenon mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 109 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 110 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal Various heat turbines are driven by 111 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the geothermal heating air is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 112 stages of turbines to inhale and compress geothermal CO2 together with the atmosphere to speed up the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal Various heat turbines are driven by 113 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the geothermal heating air is mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 114 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to accelerate natural heat mixing with deep sea water after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal Various heat turbines are driven by 115 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal Various heat turbines are driven by 116 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 117 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 118 stages of turbines to suck and compress geothermal CO2 together with the atmosphere and speed up the natural phenomenon mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 119 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 120 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of heat exchange of geothermal heating is used after heat exchange to accelerate the natural phenomenon mixed with deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by one stage of turbine, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by two stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 3 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 4 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the geothermal heating air is mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 5 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is mixed with deep sea water etc. after using heat heat exchange to speed up natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 6 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 7 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 8 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 9 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is mixed with deep sea water etc. after using heat and heat exchange to speed up natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 10 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 11 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 12 stages of turbines to suck and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 13 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up the natural phenomenon mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 14 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 15 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 16 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 17 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 18 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon of geothermal heating mixed with deep sea water etc. after using heat and heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines driven by 19 stages of turbines to suck and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 20 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 21 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 22 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines driven by 23 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 24 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 25 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is mixed with deep sea water etc. after using heat and heat exchange to speed up natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 26 stages of turbines to suck and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 27 stages of turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 28 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines driven by 29 stages of turbines to suck and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 30 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate natural heat mixing with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 31 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 32 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 33 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 34 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 35 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the geothermal heating air is mixed with the deep sea water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 36 stages of turbines to suck and compress geothermal heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 37 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 38 stages of various kinds of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 39 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 40 stages of turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 41 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 42 stages of turbines to suck and compress geothermal heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 43 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 44 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 45 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines driven by 46 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 47 stages of turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 48 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 49 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up the natural phenomena mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 50 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 51 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 52 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 53 stages of turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal Various heat turbines are driven by 54 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 55 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate natural heat mixing with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines driven by 56 stages of turbines to inhale and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 57 stages of various turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines driven by 58 stages of turbines to inhale and compress geothermal CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 59 stages of turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 60 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 61 stages of turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 62 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 63 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 64 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat pumps driven by 65 stages of turbines to suck and compress geothermal heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heated air for heat exchange Various energy conservation cycle coalescence engine.   Counter metal sphere mercury gravity geothermal heat pump is driven by 66 stages of various turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravitational geothermal heat pump is driven by 67 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. after using geothermal heating air heat and heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 68 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 69 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 70 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravitational geothermal various heat turbines driven by 71 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines are driven by 72 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 73 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 74 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 75 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 76 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of geothermal heating is mixed with deep sea water after use of heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal heat pump is driven by 77 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 78 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 79 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat pumps driven by 80 stages of various turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 81 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 82 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water etc. Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 83 stages of turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 84 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 85 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is mixed with deep sea water etc. after using heat and heat exchange to speed up natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 86 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up the natural phenomenon mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 87 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 88 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal various heat turbines are driven by 89 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal heat pump is driven by 90 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 91 stages of turbines to suck and compress geothermally heated CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermally heated air for heat exchange Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravitational geothermal various heat turbines driven by 92 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 93 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 94 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 95 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 96 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep ocean water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposing metal sphere mercury gravity geothermal various heat turbines are driven by 97 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 98 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal heat pump is driven by 99 stages of various turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to accelerate the natural phenomenon mixed with deep sea water etc. Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal heat pump is driven by 100 stages of various turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere, and the heat of the geothermal heating is mixed with the deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposite metal sphere mercury gravity geothermal Various heat turbines are driven by 101 stages of turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and the heat of the geothermal heating is mixed with deep sea water after using heat and heat exchange to speed up the natural phenomenon Various energy conservation cycle coalescence engine.   Opposed metal sphere mercury gravity geothermal various heat turbines driven by 102 stages of turbines to inhale and compress geothermal heating CO2 together with the atmosphere to speed up natural phenomena mixed with deep sea water etc. after using geothermal heating air heat heat exchange Various energy conservation cycle coalescence engine.